file_id stringlengths 5 10 | content stringlengths 65 33.1k | repo stringlengths 7 77 | path stringlengths 7 159 | token_length int64 28 8.19k | original_comment stringlengths 6 10.6k | comment_type stringclasses 2 values | detected_lang stringclasses 1 value | prompt stringlengths 14 33k |
|---|---|---|---|---|---|---|---|---|
57872_17 | package objects;
import lombok.Data;
import controll.FuzzyLogic;
import lombok.Getter;
import panels.SimulationPanel;
import javax.swing.*;
import java.util.ArrayList;
public class RoadManager {
private ArrayList<Predator> predators;
private Prey prey;
@Getter
private double os_x; // wspolrzedne wyjsciowe do sterowania
@Getter
private double os_y;
private final int moveSensitive = 4; // zmiena odpowiedzialna za czulosc ruchu dla kazdego zbioru jesli dokonamy zmiany musi byc inna , by ruch wydawal sie liniowy nie skokowy
private FuzzyLogic fuzzy;
public RoadManager() {
this.predators = new ArrayList<>();
fuzzy = new FuzzyLogic();
}
public Prey getPrey() {
return prey;
}
public void resetProgram() {
this.predators = new ArrayList<>(); // zerowanie drapieżników
prey = null; // kasowanie ofiary
}
public void addPredator(int x, int y) {
this.predators.add(new Predator(x, y));
}
public ArrayList<Predator> getPredators() {
return predators;
}
public void addPrey(int x, int y) {
this.prey = new Prey(x, y);
}
public boolean makeMove(SimulationPanel panel) {
if (prey == null) {
return false;
}
// sprawdzenie czy ofara doszła do mety
if (prey.getX() >= panel.getWidth() - prey.getWidth() / 2) {
return false;
}
//sprawdzenie czy dodano jakiegos predatora
if (predators.isEmpty()) {
return false;
}
// pobranie pierwszego predatora z listy
Predator closestPredator = predators.get(0);
double r = 0;
// szukanie najbliszego predatora do ominiecia
for (int i = 1; i < predators.size(); i++) {
Predator temp = predators.get(i);
r = closestPredator.getDistanceFromPrey(prey);
if (r > temp.getDistanceFromPrey(prey)) {
// jesli znajdziemy blizszy zamieniamy
closestPredator = temp;
}
}
// pobranie roznicy medzy drapieżnikiem a ofiarą
int rx = closestPredator.getX() - prey.getX();
int ry = closestPredator.getY() - prey.getY();
if (Math.abs(rx) > 100) { // maksymalna wartosc i minimalna zbiorow dla wartosci wejsciowych wynosi -100 i 100
rx = rx > 0 ? 100 : -100;
}
if (Math.abs(ry) > 100) {
ry = ry > 0 ? 100 : -100;
}
fuzzy.fuzzify(rx, ry); // obliczenia zbiorow
os_x = 12.48d;
os_y = fuzzy.getOutY(); //pobranie metody środka ciężkości wartości wyjsciowych
prey.setX(prey.getX() + (int) os_x / moveSensitive); // ustawianie wspolrzednych 4 oznacza czulosc ruchu
prey.setY(prey.getY() - (int) os_y / moveSensitive);
//Poruszanie predatorami na podstawie pozycji ofiary + przypadek schwytania ofiary
for (Predator p : predators) {
// sprawdzenie odleglosci miedzy predatorem, a ofiara jesli < 15 to ofiara schwytana
if (p.getDistanceFromPrey(prey) < 15) {
JOptionPane.showMessageDialog(panel, "Ofiara została schwytana.");
panel.resetProgram();
return false;
}
//poruszanie wilka po osi x
if (p.getX() < prey.getX()) {
p.setX(p.getX() + 1);
} else {
p.setX(p.getX() - 1);
}
//poruszanie wilka po osi y
if (p.getY() < prey.getY()) {
p.setY(p.getY() + 1);
} else {
p.setY(p.getY() - 1);
}
}
return true;
}
}
| 00Zbiechu/Hunting-Fuzzy-Logic | src/main/java/objects/RoadManager.java | 1,326 | //poruszanie wilka po osi y | line_comment | pl | package objects;
import lombok.Data;
import controll.FuzzyLogic;
import lombok.Getter;
import panels.SimulationPanel;
import javax.swing.*;
import java.util.ArrayList;
public class RoadManager {
private ArrayList<Predator> predators;
private Prey prey;
@Getter
private double os_x; // wspolrzedne wyjsciowe do sterowania
@Getter
private double os_y;
private final int moveSensitive = 4; // zmiena odpowiedzialna za czulosc ruchu dla kazdego zbioru jesli dokonamy zmiany musi byc inna , by ruch wydawal sie liniowy nie skokowy
private FuzzyLogic fuzzy;
public RoadManager() {
this.predators = new ArrayList<>();
fuzzy = new FuzzyLogic();
}
public Prey getPrey() {
return prey;
}
public void resetProgram() {
this.predators = new ArrayList<>(); // zerowanie drapieżników
prey = null; // kasowanie ofiary
}
public void addPredator(int x, int y) {
this.predators.add(new Predator(x, y));
}
public ArrayList<Predator> getPredators() {
return predators;
}
public void addPrey(int x, int y) {
this.prey = new Prey(x, y);
}
public boolean makeMove(SimulationPanel panel) {
if (prey == null) {
return false;
}
// sprawdzenie czy ofara doszła do mety
if (prey.getX() >= panel.getWidth() - prey.getWidth() / 2) {
return false;
}
//sprawdzenie czy dodano jakiegos predatora
if (predators.isEmpty()) {
return false;
}
// pobranie pierwszego predatora z listy
Predator closestPredator = predators.get(0);
double r = 0;
// szukanie najbliszego predatora do ominiecia
for (int i = 1; i < predators.size(); i++) {
Predator temp = predators.get(i);
r = closestPredator.getDistanceFromPrey(prey);
if (r > temp.getDistanceFromPrey(prey)) {
// jesli znajdziemy blizszy zamieniamy
closestPredator = temp;
}
}
// pobranie roznicy medzy drapieżnikiem a ofiarą
int rx = closestPredator.getX() - prey.getX();
int ry = closestPredator.getY() - prey.getY();
if (Math.abs(rx) > 100) { // maksymalna wartosc i minimalna zbiorow dla wartosci wejsciowych wynosi -100 i 100
rx = rx > 0 ? 100 : -100;
}
if (Math.abs(ry) > 100) {
ry = ry > 0 ? 100 : -100;
}
fuzzy.fuzzify(rx, ry); // obliczenia zbiorow
os_x = 12.48d;
os_y = fuzzy.getOutY(); //pobranie metody środka ciężkości wartości wyjsciowych
prey.setX(prey.getX() + (int) os_x / moveSensitive); // ustawianie wspolrzednych 4 oznacza czulosc ruchu
prey.setY(prey.getY() - (int) os_y / moveSensitive);
//Poruszanie predatorami na podstawie pozycji ofiary + przypadek schwytania ofiary
for (Predator p : predators) {
// sprawdzenie odleglosci miedzy predatorem, a ofiara jesli < 15 to ofiara schwytana
if (p.getDistanceFromPrey(prey) < 15) {
JOptionPane.showMessageDialog(panel, "Ofiara została schwytana.");
panel.resetProgram();
return false;
}
//poruszanie wilka po osi x
if (p.getX() < prey.getX()) {
p.setX(p.getX() + 1);
} else {
p.setX(p.getX() - 1);
}
//por<SUF>
if (p.getY() < prey.getY()) {
p.setY(p.getY() + 1);
} else {
p.setY(p.getY() - 1);
}
}
return true;
}
}
|
43670_5 | package struktury;
/**
* Bazowa klasa
* @author Oskar Sobczyk
* @version 1.0
* @since 2018-20-10
*/
public abstract class Zbior {
/** metoda ma szukać pary z określonym kluczem */
public abstract Para szukaj (String k) throws Exception;
/** metoda ma wstawiać do zbioru nową parę */
public abstract void wstaw (Para p) throws Exception;
/** metoda ma odszukać parę i zwrócić wartość związaną z kluczem */
public abstract double czytaj (String k) throws Exception;
/** metoda ma wstawić do zbioru nową albo zaktualizować parę */
public abstract void ustaw (Para p) throws Exception;
/** metoda ma usunąć wszystkie pary ze zbioru */
public abstract void czysc ();
/** metoda ma podać ile par jest przechowywanych w zbiorze */
public abstract int ile ();
}
| 0sk4r/Uwr | Java/Lista03/src/struktury/Zbior.java | 276 | /** metoda ma usunąć wszystkie pary ze zbioru */ | block_comment | pl | package struktury;
/**
* Bazowa klasa
* @author Oskar Sobczyk
* @version 1.0
* @since 2018-20-10
*/
public abstract class Zbior {
/** metoda ma szukać pary z określonym kluczem */
public abstract Para szukaj (String k) throws Exception;
/** metoda ma wstawiać do zbioru nową parę */
public abstract void wstaw (Para p) throws Exception;
/** metoda ma odszukać parę i zwrócić wartość związaną z kluczem */
public abstract double czytaj (String k) throws Exception;
/** metoda ma wstawić do zbioru nową albo zaktualizować parę */
public abstract void ustaw (Para p) throws Exception;
/** meto<SUF>*/
public abstract void czysc ();
/** metoda ma podać ile par jest przechowywanych w zbiorze */
public abstract int ile ();
}
|
129658_0 | package display;
import javax.swing.*;
import java.awt.*;
import IO.IOManager;
import event.editor.EditorSelectedEvent;
import gamemanager.GameManager;
public class MenuDisplay extends JPanel {
private JPanel container;
private JButton playButton;
private JButton editorButton;
private JLabel titleLabel;
private Image backgroundImage;
public MenuDisplay() {
// Ładowanie obrazu tła
try {
backgroundImage = new ImageIcon(getClass().getResource("/graphics/background.png")).getImage();
} catch (Exception e) {
e.printStackTrace();
}
setLayout(new BorderLayout());
container = new JPanel();
container.setLayout(new BoxLayout(container, BoxLayout.Y_AXIS));
container.setOpaque(false);
add(container, BorderLayout.CENTER);
titleLabel = new JLabel("NANOGRID");
titleLabel.setFont(new Font("Serif", Font.BOLD, 50));
titleLabel.setForeground(Color.WHITE);
titleLabel.setAlignmentX(Component.CENTER_ALIGNMENT);
playButton = new JButton("PLAY");
stylizeButton(playButton);
editorButton = new JButton("EDITOR");
stylizeButton(editorButton);
playButton.addActionListener(e -> onPlayClicked());
editorButton.addActionListener(e -> onEditorClicked());
container.add(Box.createVerticalGlue());
container.add(titleLabel);
container.add(Box.createRigidArea(new Dimension(0, 50)));
container.add(playButton);
container.add(Box.createRigidArea(new Dimension(0, 30)));
container.add(editorButton);
container.add(Box.createVerticalGlue());
}
private void onPlayClicked() {
// Obsługa przycisku PLAY
//JFrame window = (JFrame) SwingUtilities.getWindowAncestor(this);
//window.getContentPane().removeAll();
//window.getContentPane().add(new LevelSelectionDisplay(), BorderLayout.CENTER);
//window.revalidate();
//window.repaint();
container.removeAll();
container.setLayout(new BorderLayout());
container.add(new LevelSelectionDisplay(), BorderLayout.CENTER);
container.revalidate();
IOManager.getInstance().drawMenu();
}
private void onEditorClicked() {
// Obsługa przycisku EDITOR
GameManager.getInstance().onEvent(new EditorSelectedEvent());
}
private void stylizeButton(JButton button) {
button.setFont(new Font("Serif", Font.PLAIN, 24));
button.setForeground(Color.WHITE);
button.setBackground(new Color(100, 100, 100));
button.setFocusPainted(false);
button.setAlignmentX(Component.CENTER_ALIGNMENT);
button.setOpaque(true);
button.setBorderPainted(false);
}
@Override
protected void paintComponent(Graphics g) {
super.paintComponent(g);
if (backgroundImage != null) {
// Ustawienie skalowania obrazu, aby pasował do komponentu
int width = this.getWidth();
int height = this.getHeight();
// Obliczenie nowych wymiarów zachowując proporcje
int imgWidth = backgroundImage.getWidth(this);
int imgHeight = backgroundImage.getHeight(this);
float aspectRatio = (float) imgWidth / imgHeight;
float containerRatio = (float) width / height;
int newWidth, newHeight;
// Dostosuj rozmiar obrazu do proporcji kontenera
if (containerRatio > aspectRatio) {
newWidth = width;
newHeight = (int) (width / aspectRatio);
} else {
newHeight = height;
newWidth = (int) (height * aspectRatio);
}
// Wycentrowanie obrazu
int x = (width - newWidth) / 2;
int y = (height - newHeight) / 2;
// Rysowanie przeskalowanego obrazu
g.drawImage(backgroundImage, x, y, newWidth, newHeight, this);
}
}
}
| 0stam/psio-game | src/display/MenuDisplay.java | 1,141 | // Ładowanie obrazu tła | line_comment | pl | package display;
import javax.swing.*;
import java.awt.*;
import IO.IOManager;
import event.editor.EditorSelectedEvent;
import gamemanager.GameManager;
public class MenuDisplay extends JPanel {
private JPanel container;
private JButton playButton;
private JButton editorButton;
private JLabel titleLabel;
private Image backgroundImage;
public MenuDisplay() {
// Ład<SUF>
try {
backgroundImage = new ImageIcon(getClass().getResource("/graphics/background.png")).getImage();
} catch (Exception e) {
e.printStackTrace();
}
setLayout(new BorderLayout());
container = new JPanel();
container.setLayout(new BoxLayout(container, BoxLayout.Y_AXIS));
container.setOpaque(false);
add(container, BorderLayout.CENTER);
titleLabel = new JLabel("NANOGRID");
titleLabel.setFont(new Font("Serif", Font.BOLD, 50));
titleLabel.setForeground(Color.WHITE);
titleLabel.setAlignmentX(Component.CENTER_ALIGNMENT);
playButton = new JButton("PLAY");
stylizeButton(playButton);
editorButton = new JButton("EDITOR");
stylizeButton(editorButton);
playButton.addActionListener(e -> onPlayClicked());
editorButton.addActionListener(e -> onEditorClicked());
container.add(Box.createVerticalGlue());
container.add(titleLabel);
container.add(Box.createRigidArea(new Dimension(0, 50)));
container.add(playButton);
container.add(Box.createRigidArea(new Dimension(0, 30)));
container.add(editorButton);
container.add(Box.createVerticalGlue());
}
private void onPlayClicked() {
// Obsługa przycisku PLAY
//JFrame window = (JFrame) SwingUtilities.getWindowAncestor(this);
//window.getContentPane().removeAll();
//window.getContentPane().add(new LevelSelectionDisplay(), BorderLayout.CENTER);
//window.revalidate();
//window.repaint();
container.removeAll();
container.setLayout(new BorderLayout());
container.add(new LevelSelectionDisplay(), BorderLayout.CENTER);
container.revalidate();
IOManager.getInstance().drawMenu();
}
private void onEditorClicked() {
// Obsługa przycisku EDITOR
GameManager.getInstance().onEvent(new EditorSelectedEvent());
}
private void stylizeButton(JButton button) {
button.setFont(new Font("Serif", Font.PLAIN, 24));
button.setForeground(Color.WHITE);
button.setBackground(new Color(100, 100, 100));
button.setFocusPainted(false);
button.setAlignmentX(Component.CENTER_ALIGNMENT);
button.setOpaque(true);
button.setBorderPainted(false);
}
@Override
protected void paintComponent(Graphics g) {
super.paintComponent(g);
if (backgroundImage != null) {
// Ustawienie skalowania obrazu, aby pasował do komponentu
int width = this.getWidth();
int height = this.getHeight();
// Obliczenie nowych wymiarów zachowując proporcje
int imgWidth = backgroundImage.getWidth(this);
int imgHeight = backgroundImage.getHeight(this);
float aspectRatio = (float) imgWidth / imgHeight;
float containerRatio = (float) width / height;
int newWidth, newHeight;
// Dostosuj rozmiar obrazu do proporcji kontenera
if (containerRatio > aspectRatio) {
newWidth = width;
newHeight = (int) (width / aspectRatio);
} else {
newHeight = height;
newWidth = (int) (height * aspectRatio);
}
// Wycentrowanie obrazu
int x = (width - newWidth) / 2;
int y = (height - newHeight) / 2;
// Rysowanie przeskalowanego obrazu
g.drawImage(backgroundImage, x, y, newWidth, newHeight, this);
}
}
}
|
25390_2 | package Workshops.no2_functional_programming.Streams;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.stream.Collector;
import java.util.stream.Collectors;
import java.util.stream.Stream;
public class streamCreation {
public static void main(String[] args) {
Stream<String> myEmptyStream = Stream.empty();
Stream<String> stringStream = Stream.of("1", "2", "3")
.peek(elem -> System.out.println("elem: " + elem));
// operacja terminująca, bez niej nie odpali się ^lambda
// na stremie można wykonać tylko jedną operację terminującą, przy kolejnej próbie wywali wyjątek
stringStream.collect(Collectors.toList());
List<String> stringList = List.of("elem1", "elem2", "elem3", "elem4");
// na podstawie listy można zrobić wiele streamów
Stream<String> stream1 = stringList.stream();
Stream<String> stream2 = stringList.stream();
// operacji pośrednich nie musi mieć, ale terminującą tak
stream1.collect(Collectors.toList());
stream2.collect(Collectors.toList());
// nieskończony stream
Stream.generate(() -> "someValue")
.collect(Collectors.toList());
// żeby zobaczyć stream poniżej trzeba zakomentować ten wyżej bo ten wyżej robi wartości w nieskończoność i ten niżej nigdy się nie odpali
Stream.iterate(0, a -> a + 1)
.peek(e -> System.out.println("elem: " + e))
.collect(Collectors.toList());
Map<Integer, String> myMap = new HashMap<>();
Stream<Map> myStream = Stream.of(myMap);
Stream<Map.Entry<Integer, String>> streem = myMap.entrySet().stream();
}
}
| 0xRobert1997/Workshops | src/Workshops/no2_functional_programming/Streams/streamCreation.java | 543 | // na podstawie listy można zrobić wiele streamów | line_comment | pl | package Workshops.no2_functional_programming.Streams;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.stream.Collector;
import java.util.stream.Collectors;
import java.util.stream.Stream;
public class streamCreation {
public static void main(String[] args) {
Stream<String> myEmptyStream = Stream.empty();
Stream<String> stringStream = Stream.of("1", "2", "3")
.peek(elem -> System.out.println("elem: " + elem));
// operacja terminująca, bez niej nie odpali się ^lambda
// na stremie można wykonać tylko jedną operację terminującą, przy kolejnej próbie wywali wyjątek
stringStream.collect(Collectors.toList());
List<String> stringList = List.of("elem1", "elem2", "elem3", "elem4");
// na <SUF>
Stream<String> stream1 = stringList.stream();
Stream<String> stream2 = stringList.stream();
// operacji pośrednich nie musi mieć, ale terminującą tak
stream1.collect(Collectors.toList());
stream2.collect(Collectors.toList());
// nieskończony stream
Stream.generate(() -> "someValue")
.collect(Collectors.toList());
// żeby zobaczyć stream poniżej trzeba zakomentować ten wyżej bo ten wyżej robi wartości w nieskończoność i ten niżej nigdy się nie odpali
Stream.iterate(0, a -> a + 1)
.peek(e -> System.out.println("elem: " + e))
.collect(Collectors.toList());
Map<Integer, String> myMap = new HashMap<>();
Stream<Map> myStream = Stream.of(myMap);
Stream<Map.Entry<Integer, String>> streem = myMap.entrySet().stream();
}
}
|
67172_0 | package com.example.zajecia7doktorki;
import org.springframework.boot.SpringApplication;
import org.springframework.boot.autoconfigure.SpringBootApplication;
@SpringBootApplication
public class Zajecia7DoktorkiApplication {
public static void main(String[] args) {
/*
Stworz aplikacje z pomoca springa gdzie beda mogli Pacjenci rejestrowac sie do Lekarza. Pacjent(id, name, surname, age, pesel, wizyty), Doktor(id, name, surname, specialization, age) Appointment(patientId, DoctorId, date)
Pacjent ma miec mozliwosc zapisania sie do specjalisty. Mamy stworzyc pelnego CRUD'a. Doktor ma miec mozliwosc odwolania wizyty.
Msmy miec mozliwosc wypisania wszystkich pacjentow danego doktorka
I liste wizyt kazdego pacjenta
*/
SpringApplication.run(Zajecia7DoktorkiApplication.class, args);
}
}
| 10brajan/Hospital-manegment | src/main/java/com/example/zajecia7doktorki/Zajecia7DoktorkiApplication.java | 291 | /*
Stworz aplikacje z pomoca springa gdzie beda mogli Pacjenci rejestrowac sie do Lekarza. Pacjent(id, name, surname, age, pesel, wizyty), Doktor(id, name, surname, specialization, age) Appointment(patientId, DoctorId, date)
Pacjent ma miec mozliwosc zapisania sie do specjalisty. Mamy stworzyc pelnego CRUD'a. Doktor ma miec mozliwosc odwolania wizyty.
Msmy miec mozliwosc wypisania wszystkich pacjentow danego doktorka
I liste wizyt kazdego pacjenta
*/ | block_comment | pl | package com.example.zajecia7doktorki;
import org.springframework.boot.SpringApplication;
import org.springframework.boot.autoconfigure.SpringBootApplication;
@SpringBootApplication
public class Zajecia7DoktorkiApplication {
public static void main(String[] args) {
/*
Stwo<SUF>*/
SpringApplication.run(Zajecia7DoktorkiApplication.class, args);
}
}
|
46504_10 | import java.util.*;
public class Main {
public static void main(String[] args) {
// Tworzenie grafu
Graph graph = new Graph();
// Tworzenie wierzchołków
Vertex v1 = new Vertex(1);
Vertex v2 = new Vertex(2);
Vertex v3 = new Vertex(3);
Vertex v4 = new Vertex(4);
// Dodawanie wierzchołków do grafu
graph.addVertex(v1);
graph.addVertex(v2);
graph.addVertex(v3);
graph.addVertex(v4);
// Dodawanie krawędzi do grafu
graph.addEdge(v1, v2, 2);
graph.addEdge(v1, v3, 5);
graph.addEdge(v2, v3, 1);
graph.addEdge(v2, v4, 6);
graph.addEdge(v3, v4, 3);
// Wybieranie losowego wierzchołka docelowego
Random random = new Random();
Vertex randomEndVertex = graph.vertices.get(random.nextInt(graph.vertices.size()));
// Znajdowanie najkrótszej drogi między wierzchołkiem 1 a losowym wierzchołkiem docelowym
List<Vertex> shortestPath = graph.shortestPath(v1, randomEndVertex);
// Wyświetlanie najkrótszej drogi
System.out.println("Najkrótsza droga:");
for (Vertex vertex : shortestPath) {
System.out.print(vertex.id + " -> ");
}
}
}
class Vertex {
int id;
List<Edge> edges;
public Vertex(int id) {
this.id = id;
this.edges = new ArrayList<>();
}
public void addEdge(Edge edge) {
edges.add(edge);
}
}
class Edge {
Vertex source;
Vertex destination;
int weight;
public Edge(Vertex source, Vertex destination, int weight) {
this.source = source;
this.destination = destination;
this.weight = weight;
}
}
class Graph {
List<Vertex> vertices;
public Graph() {
this.vertices = new ArrayList<>();
}
public void addVertex(Vertex vertex) {
vertices.add(vertex);
}
public void addEdge(Vertex source, Vertex destination, int weight) {
Edge edge = new Edge(source, destination, weight);
source.addEdge(edge);
destination.addEdge(edge);
}
// Metoda do znajdowania najkrótszej drogi pomiędzy wierzchołkiem początkowym a losowym wierzchołkiem docelowym
public List<Vertex> shortestPath(Vertex start, Vertex randomEndVertex) {
// Inicjalizacja
Map<Vertex, Integer> distances = new HashMap<>();
Map<Vertex, Vertex> previousVertices = new HashMap<>();
PriorityQueue<Vertex> queue = new PriorityQueue<>((v1, v2) -> distances.get(v1) - distances.get(v2));
for (Vertex vertex : vertices) {
distances.put(vertex, vertex == start ? 0 : Integer.MAX_VALUE);
queue.add(vertex);
}
// Algorytm Dijkstry
while (!queue.isEmpty()) {
Vertex current = queue.poll();
if (current == randomEndVertex) break;
if (distances.get(current) == Integer.MAX_VALUE) break;
for (Edge edge : current.edges) {
Vertex neighbor = edge.source == current ? edge.destination : edge.source;
int newDistance = distances.get(current) + edge.weight;
if (newDistance < distances.get(neighbor)) {
distances.put(neighbor, newDistance);
previousVertices.put(neighbor, current);
queue.remove(neighbor);
queue.add(neighbor);
}
}
}
// Rekonstrukcja najkrótszej ścieżki
List<Vertex> shortestPath = new ArrayList<>();
Vertex current = randomEndVertex;
while (current != null) {
shortestPath.add(current);
current = previousVertices.get(current);
}
Collections.reverse(shortestPath);
return shortestPath;
}
}
| 1312oskar/Algorytm-Dijkstry | algorytmDijksry.java | 1,205 | // Rekonstrukcja najkrótszej ścieżki
| line_comment | pl | import java.util.*;
public class Main {
public static void main(String[] args) {
// Tworzenie grafu
Graph graph = new Graph();
// Tworzenie wierzchołków
Vertex v1 = new Vertex(1);
Vertex v2 = new Vertex(2);
Vertex v3 = new Vertex(3);
Vertex v4 = new Vertex(4);
// Dodawanie wierzchołków do grafu
graph.addVertex(v1);
graph.addVertex(v2);
graph.addVertex(v3);
graph.addVertex(v4);
// Dodawanie krawędzi do grafu
graph.addEdge(v1, v2, 2);
graph.addEdge(v1, v3, 5);
graph.addEdge(v2, v3, 1);
graph.addEdge(v2, v4, 6);
graph.addEdge(v3, v4, 3);
// Wybieranie losowego wierzchołka docelowego
Random random = new Random();
Vertex randomEndVertex = graph.vertices.get(random.nextInt(graph.vertices.size()));
// Znajdowanie najkrótszej drogi między wierzchołkiem 1 a losowym wierzchołkiem docelowym
List<Vertex> shortestPath = graph.shortestPath(v1, randomEndVertex);
// Wyświetlanie najkrótszej drogi
System.out.println("Najkrótsza droga:");
for (Vertex vertex : shortestPath) {
System.out.print(vertex.id + " -> ");
}
}
}
class Vertex {
int id;
List<Edge> edges;
public Vertex(int id) {
this.id = id;
this.edges = new ArrayList<>();
}
public void addEdge(Edge edge) {
edges.add(edge);
}
}
class Edge {
Vertex source;
Vertex destination;
int weight;
public Edge(Vertex source, Vertex destination, int weight) {
this.source = source;
this.destination = destination;
this.weight = weight;
}
}
class Graph {
List<Vertex> vertices;
public Graph() {
this.vertices = new ArrayList<>();
}
public void addVertex(Vertex vertex) {
vertices.add(vertex);
}
public void addEdge(Vertex source, Vertex destination, int weight) {
Edge edge = new Edge(source, destination, weight);
source.addEdge(edge);
destination.addEdge(edge);
}
// Metoda do znajdowania najkrótszej drogi pomiędzy wierzchołkiem początkowym a losowym wierzchołkiem docelowym
public List<Vertex> shortestPath(Vertex start, Vertex randomEndVertex) {
// Inicjalizacja
Map<Vertex, Integer> distances = new HashMap<>();
Map<Vertex, Vertex> previousVertices = new HashMap<>();
PriorityQueue<Vertex> queue = new PriorityQueue<>((v1, v2) -> distances.get(v1) - distances.get(v2));
for (Vertex vertex : vertices) {
distances.put(vertex, vertex == start ? 0 : Integer.MAX_VALUE);
queue.add(vertex);
}
// Algorytm Dijkstry
while (!queue.isEmpty()) {
Vertex current = queue.poll();
if (current == randomEndVertex) break;
if (distances.get(current) == Integer.MAX_VALUE) break;
for (Edge edge : current.edges) {
Vertex neighbor = edge.source == current ? edge.destination : edge.source;
int newDistance = distances.get(current) + edge.weight;
if (newDistance < distances.get(neighbor)) {
distances.put(neighbor, newDistance);
previousVertices.put(neighbor, current);
queue.remove(neighbor);
queue.add(neighbor);
}
}
}
// Rek<SUF>
List<Vertex> shortestPath = new ArrayList<>();
Vertex current = randomEndVertex;
while (current != null) {
shortestPath.add(current);
current = previousVertices.get(current);
}
Collections.reverse(shortestPath);
return shortestPath;
}
}
|
107714_6 | package esa.Project;
import esa.Project.Entities.Pomiar;
import esa.Project.Entities.PunktPomiarowy;
import esa.Project.Transactions.PomiarTransactions;
import org.apache.commons.io.IOUtils;
import org.json.JSONArray;
import org.json.JSONObject;
import org.springframework.scheduling.annotation.Scheduled;
import org.springframework.stereotype.Component;
import java.sql.Date;
import java.sql.Time;
import java.time.LocalDateTime;
import java.io.IOException;
import java.net.MalformedURLException;
import java.net.URI;
import java.net.URISyntaxException;
import java.net.URL;
import java.nio.charset.Charset;
@Component
public class EsaJSONData {
private static String uriString = "https://public-esa.ose.gov.pl/api/v1/smog";
private static URL url;
static {
try {
url = new URI(uriString).toURL();
} catch (MalformedURLException e) {
e.printStackTrace();
} catch (URISyntaxException e) {
e.printStackTrace();
}
}
@Scheduled(fixedRate = 300000)
public static void getJson() throws IOException {
String json = IOUtils.toString(url, Charset.forName("UTF-8"));
json = json.substring(14, json.length());
for (int i = json.length() - 1; i > 0; i--) {
if (json.charAt(i) == ']') {
json = json.substring(0, i);
break;
}
}
readSchoolData(json);
}
private static void readSchoolData(String json) {
String[] schools = json.split("school");
String[][] schoolsData = new String[schools.length][2];
int valid = 0;
for (int i = 0; i < schools.length; i++) {
try {
String[] data = schools[i].split("data");
schoolsData[valid][0] = data[0].replace('{', ' ').replace('}', ' ').substring(3, data[0].length() - 3);
//TODO już tutaj wywalić timestamp w pomiarze, znajdując pierwsze wystąpienie }
String outTimestamp = trimTimestamp(data[1]);
schoolsData[valid][1] = outTimestamp.replace('{', ' ').replace('}', ' ').substring(3);
//System.out.println(schoolsData[valid][0]);
//System.out.println(schoolsData[valid][1]);
valid++;
} catch (IndexOutOfBoundsException exc) {
/*System.out.println("Brakuje drugiego: ");
System.out.println(schools[i]);*/
}
}
parseToDataBase(schoolsData);
}
private static String trimTimestamp(String row) {
int firstClosedIndex = 0;
char closed = '}';
for (int i = 0; i < row.length(); i++) {
if (row.charAt(i) == closed) {
firstClosedIndex = i;
break;
}
}
return row.substring(0, firstClosedIndex);
}
private static void parseToDataBase(String[][] schoolsData) {
Pomiar[] measData = new Pomiar[schoolsData.length];
LocalDateTime now = LocalDateTime.now();
Date date = Date.valueOf(now.toString().split("T")[0]);
String timeStr = now.toString().split("T")[1];
String[] timeElem = timeStr.split(":");
Time time = new Time(Integer.parseInt(timeElem[0]), Integer.parseInt(timeElem[1]), 0);
for (int i = 0; i < schoolsData.length; i++) {
if (schoolsData[i][0] == null || schoolsData[i][1] == null) {
break;
}
PunktPomiarowy school = parseSchool(schoolsData[i][0]);
Pomiar meas = parseMeasData(schoolsData[i][1]);
if (meas != null) {
meas.setPunktPomiarowy(school);
meas.setTime(time);
meas.setDate(date);
//TODO save to database
}
measData[i] = meas;
}
PomiarTransactions.addManyPomiar(deleteVoid(measData));
}
private static Pomiar[] deleteVoid(Pomiar[] meas){
int correct = 0;
for(Pomiar record : meas){
if(record != null){
correct++;
}
}
Pomiar[] correctMeas = new Pomiar[correct];
int counter = 0;
for(Pomiar record : meas){
if(record != null){
correctMeas[counter] = record;
counter++;
}
}
return correctMeas;
}
private static PunktPomiarowy parseSchool(String school) {
school = school.trim();
JSONObject ob = new JSONObject("{" + school + "}");
String city = ob.get("city").toString().trim();
String street = ob.get("street").toString().trim();
String zipCode = ob.get("post_code").toString().trim();
String schoolName = ob.get("name").toString().trim();
float latitude = Float.parseFloat(ob.get("latitude").toString().trim());
float longitude = Float.parseFloat(ob.get("longitude").toString().trim());
PunktPomiarowy punktPomiarowy = new PunktPomiarowy(city, street, zipCode, schoolName, latitude, longitude);
//System.out.println(punktPomiarowy);
return punktPomiarowy;
}
private static Pomiar parseMeasData(String data) {
//System.out.println(data);
data = data.trim();
try {
JSONObject ob = new JSONObject("{" + data + "}");
float temperature = Float.parseFloat(ob.get("temperature_avg").toString().trim());
float humidity = Float.parseFloat(ob.get("humidity_avg").toString().trim());
float pressure = Float.parseFloat(ob.get("pressure_avg").toString().trim());
float pm25 = Float.parseFloat(ob.get("pm25_avg").toString().trim());
float pm10 = Float.parseFloat(ob.get("pm10_avg").toString().trim());
Pomiar pomiar = new Pomiar(temperature, humidity, pressure, pm25, pm10);
return pomiar;
} catch (org.json.JSONException | NumberFormatException exc) {
System.out.println(exc.getMessage());
System.out.println(data);
return null;
}
}
}
| 154436/Aplikacja_gromadzenie_i_prezentowanie_danych_ESA | src/main/java/esa/Project/EsaJSONData.java | 1,789 | //System.out.println(punktPomiarowy); | line_comment | pl | package esa.Project;
import esa.Project.Entities.Pomiar;
import esa.Project.Entities.PunktPomiarowy;
import esa.Project.Transactions.PomiarTransactions;
import org.apache.commons.io.IOUtils;
import org.json.JSONArray;
import org.json.JSONObject;
import org.springframework.scheduling.annotation.Scheduled;
import org.springframework.stereotype.Component;
import java.sql.Date;
import java.sql.Time;
import java.time.LocalDateTime;
import java.io.IOException;
import java.net.MalformedURLException;
import java.net.URI;
import java.net.URISyntaxException;
import java.net.URL;
import java.nio.charset.Charset;
@Component
public class EsaJSONData {
private static String uriString = "https://public-esa.ose.gov.pl/api/v1/smog";
private static URL url;
static {
try {
url = new URI(uriString).toURL();
} catch (MalformedURLException e) {
e.printStackTrace();
} catch (URISyntaxException e) {
e.printStackTrace();
}
}
@Scheduled(fixedRate = 300000)
public static void getJson() throws IOException {
String json = IOUtils.toString(url, Charset.forName("UTF-8"));
json = json.substring(14, json.length());
for (int i = json.length() - 1; i > 0; i--) {
if (json.charAt(i) == ']') {
json = json.substring(0, i);
break;
}
}
readSchoolData(json);
}
private static void readSchoolData(String json) {
String[] schools = json.split("school");
String[][] schoolsData = new String[schools.length][2];
int valid = 0;
for (int i = 0; i < schools.length; i++) {
try {
String[] data = schools[i].split("data");
schoolsData[valid][0] = data[0].replace('{', ' ').replace('}', ' ').substring(3, data[0].length() - 3);
//TODO już tutaj wywalić timestamp w pomiarze, znajdując pierwsze wystąpienie }
String outTimestamp = trimTimestamp(data[1]);
schoolsData[valid][1] = outTimestamp.replace('{', ' ').replace('}', ' ').substring(3);
//System.out.println(schoolsData[valid][0]);
//System.out.println(schoolsData[valid][1]);
valid++;
} catch (IndexOutOfBoundsException exc) {
/*System.out.println("Brakuje drugiego: ");
System.out.println(schools[i]);*/
}
}
parseToDataBase(schoolsData);
}
private static String trimTimestamp(String row) {
int firstClosedIndex = 0;
char closed = '}';
for (int i = 0; i < row.length(); i++) {
if (row.charAt(i) == closed) {
firstClosedIndex = i;
break;
}
}
return row.substring(0, firstClosedIndex);
}
private static void parseToDataBase(String[][] schoolsData) {
Pomiar[] measData = new Pomiar[schoolsData.length];
LocalDateTime now = LocalDateTime.now();
Date date = Date.valueOf(now.toString().split("T")[0]);
String timeStr = now.toString().split("T")[1];
String[] timeElem = timeStr.split(":");
Time time = new Time(Integer.parseInt(timeElem[0]), Integer.parseInt(timeElem[1]), 0);
for (int i = 0; i < schoolsData.length; i++) {
if (schoolsData[i][0] == null || schoolsData[i][1] == null) {
break;
}
PunktPomiarowy school = parseSchool(schoolsData[i][0]);
Pomiar meas = parseMeasData(schoolsData[i][1]);
if (meas != null) {
meas.setPunktPomiarowy(school);
meas.setTime(time);
meas.setDate(date);
//TODO save to database
}
measData[i] = meas;
}
PomiarTransactions.addManyPomiar(deleteVoid(measData));
}
private static Pomiar[] deleteVoid(Pomiar[] meas){
int correct = 0;
for(Pomiar record : meas){
if(record != null){
correct++;
}
}
Pomiar[] correctMeas = new Pomiar[correct];
int counter = 0;
for(Pomiar record : meas){
if(record != null){
correctMeas[counter] = record;
counter++;
}
}
return correctMeas;
}
private static PunktPomiarowy parseSchool(String school) {
school = school.trim();
JSONObject ob = new JSONObject("{" + school + "}");
String city = ob.get("city").toString().trim();
String street = ob.get("street").toString().trim();
String zipCode = ob.get("post_code").toString().trim();
String schoolName = ob.get("name").toString().trim();
float latitude = Float.parseFloat(ob.get("latitude").toString().trim());
float longitude = Float.parseFloat(ob.get("longitude").toString().trim());
PunktPomiarowy punktPomiarowy = new PunktPomiarowy(city, street, zipCode, schoolName, latitude, longitude);
//Sys<SUF>
return punktPomiarowy;
}
private static Pomiar parseMeasData(String data) {
//System.out.println(data);
data = data.trim();
try {
JSONObject ob = new JSONObject("{" + data + "}");
float temperature = Float.parseFloat(ob.get("temperature_avg").toString().trim());
float humidity = Float.parseFloat(ob.get("humidity_avg").toString().trim());
float pressure = Float.parseFloat(ob.get("pressure_avg").toString().trim());
float pm25 = Float.parseFloat(ob.get("pm25_avg").toString().trim());
float pm10 = Float.parseFloat(ob.get("pm10_avg").toString().trim());
Pomiar pomiar = new Pomiar(temperature, humidity, pressure, pm25, pm10);
return pomiar;
} catch (org.json.JSONException | NumberFormatException exc) {
System.out.println(exc.getMessage());
System.out.println(data);
return null;
}
}
}
|
154633_7 | /*
* WorkSpace_O1.java
*
* Created on 1. prosinec 2006, 17:12
*
* To change this template, choose Tools | Template Manager
* and open the template in the draw.
*/
package by.dak.cutting.cut.base;
/**
* @author Peca
*/
public class WorkSpace_O1 extends AbstractWorkSpace
{
public QuickList<WorkArea_O1> workAreas;
private WorkArea[] workSheets;
// public int minElementSize = 0;
private int mostRightCut = 0;
/**
* Creates a new instance of WorkSpace
*/
protected WorkSpace_O1()
{
workAreas = new QuickList<WorkArea_O1>();
}
public WorkSpace_O1(WorkArea[] workSheets)
{
this();
this.workSheets = workSheets;
clear();
}
public Dimension getPlateSize()
{
return workSheets[0];
}
/* public void setPlateSize(Dimension plateSize){
this.plateSize = plateSize;
clear();
} */
public void clear()
{
workAreas.clear();
mostRightCut = 0;
for (int i = 0; i < workSheets.length; i++)
{
workAreas.add(new WorkArea_O1(workSheets[i]));
}
//workAreas.add(new WorkArea(plateSize.width, plateSize.height));
}
public int getRightFreeLength()
{
return mostRightCut;
}
public int getRightEmptyArea(WorkArea workSheet)
{
int r = 0;
for (WorkArea wa : workAreas)
{
if (!wa.intersect(workSheet)) continue; //nepatri to do tohoto sheetu
if (wa.getX2() != workSheet.getX2()) continue; //neni to workarea co se dotyka konce
if (wa.getY() != workSheet.getY()) continue;
if (wa.getY2() != workSheet.getY2()) continue;
r = wa.getArea();
break;
}
return r;
}
public int getRightEmptyArea()
{
int r = 0;
for (WorkArea ws : workSheets)
{
r += getRightEmptyArea(ws);
}
return r;
}
/**
* Plocha workarea nedotykajicich se konce desky *
*/
public int getLeftEmptyArea(WorkArea workSheet)
{
int area = 0;
for (WorkArea wa : workAreas)
{
if (!wa.intersect(workSheet)) continue; //nepatri to do tohoto sheetu
if (wa.getX2() == workSheet.getX2()) continue; //dotyka se to konce desky
area += wa.getArea();
}
return area;
}
public int getLeftEmptyArea()
{
int area = 0;
for (WorkArea ws : workSheets)
{
area += getLeftEmptyArea(ws);
}
return area;
}
public int getTotalArea()
{
int area = 0;
for (WorkArea ws : workSheets)
{
area += ws.getArea();
}
return area;
}
public void cut(Rect rct)
{
if (mostRightCut < rct.getX2()) mostRightCut = rct.getX2();
int n = workAreas.size();
for (int i = 0; i < n; i++)
{ //projdeme vsechny pracovni plochy
WorkArea_O1 wa = workAreas.get(i);
wa.isNew = false; //stavajici plosky oznacime ze nejsou nove
Rect[] ra = wa.split(rct); //a vsechny je rozdelime (pokud to jde)
if (ra != null)
{ //slo to
//workAreas.remove(wa); //plochu kterou jsme rezali odstranime
workAreas.set(i, null); //plochu kterou jsme rezali odstranime ze seznamu
for (Rect r : ra)
{ //vsechny nove casti pridame do seznamu
//if((r.width >= minElementSize)&&(r.height >= minElementSize)){
if ((Math.min(r.getWidth(), r.getHeight()) >= minMinElementSize) &&
(Math.max(r.getWidth(), r.getHeight()) >= minMaxElementSize))
{
//wanew.add(new WorkArea(r));
WorkArea_O1 wan = new WorkArea_O1(r);
wan.isNew = true;
workAreas.add(wan);
}
}
}
}
workAreas.pack();
//workAreas.addAll(wanew);
int i = 0;
while (i < workAreas.size())
{ //projdeme vsechny pracovni plochy
WorkArea_O1 wa = workAreas.get(i);
if (!wa.isNew)
{ //ploska neni nova tak to preskocime
i++;
continue;
}
if (isWorkAreaOverlapped(wa))
workAreas.remove(i); //pokud je nova ploska cela prekryta jinou ploskou, tak ji odstranime ze seznamu
else i++;
}
//workAreas.pack();
}
public WorkArea findTopLeftWorkArea(Dimension elementSize)
{
long min = Long.MAX_VALUE;
WorkArea_O1 best = null;
for (int i = 0; i < workAreas.size(); i++)
{
WorkArea_O1 wa = workAreas.get(i);
long dist = wa.getY() + wa.getX() * getPlateSize().getHeight();
if ((min > dist) && (wa.getWidth() >= elementSize.getWidth()) && (wa.getHeight() >= elementSize.getHeight()))
{
best = wa;
min = dist;
}
}
return best;
}
public WorkArea[] getWorkAreas()
{
WorkArea_O1[] was = new WorkArea_O1[workAreas.size()];
for (int i = 0; i < workAreas.size(); i++)
{
was[i] = workAreas.get(i);
}
return was;
}
/**
* zjistuje jestli je pracovni prostor wa cely prekryt jinym pracovnim prostorem
*/
protected boolean isWorkAreaOverlapped(WorkArea wa)
{
for (int i = 0; i < workAreas.size(); i++)
{
WorkArea w = workAreas.get(i);
if (w == wa) continue;
if (w.contains(wa)) return true;
}
return false;
}
public int getFreeArea()
{
int area = 0;
for (WorkArea wa : workAreas)
{
area += wa.getArea();
}
return area;
}
}
| 15831944/furman | furman.main/src/main/java/by/dak/cutting/cut/base/WorkSpace_O1.java | 1,980 | //neni to workarea co se dotyka konce | line_comment | pl | /*
* WorkSpace_O1.java
*
* Created on 1. prosinec 2006, 17:12
*
* To change this template, choose Tools | Template Manager
* and open the template in the draw.
*/
package by.dak.cutting.cut.base;
/**
* @author Peca
*/
public class WorkSpace_O1 extends AbstractWorkSpace
{
public QuickList<WorkArea_O1> workAreas;
private WorkArea[] workSheets;
// public int minElementSize = 0;
private int mostRightCut = 0;
/**
* Creates a new instance of WorkSpace
*/
protected WorkSpace_O1()
{
workAreas = new QuickList<WorkArea_O1>();
}
public WorkSpace_O1(WorkArea[] workSheets)
{
this();
this.workSheets = workSheets;
clear();
}
public Dimension getPlateSize()
{
return workSheets[0];
}
/* public void setPlateSize(Dimension plateSize){
this.plateSize = plateSize;
clear();
} */
public void clear()
{
workAreas.clear();
mostRightCut = 0;
for (int i = 0; i < workSheets.length; i++)
{
workAreas.add(new WorkArea_O1(workSheets[i]));
}
//workAreas.add(new WorkArea(plateSize.width, plateSize.height));
}
public int getRightFreeLength()
{
return mostRightCut;
}
public int getRightEmptyArea(WorkArea workSheet)
{
int r = 0;
for (WorkArea wa : workAreas)
{
if (!wa.intersect(workSheet)) continue; //nepatri to do tohoto sheetu
if (wa.getX2() != workSheet.getX2()) continue; //nen<SUF>
if (wa.getY() != workSheet.getY()) continue;
if (wa.getY2() != workSheet.getY2()) continue;
r = wa.getArea();
break;
}
return r;
}
public int getRightEmptyArea()
{
int r = 0;
for (WorkArea ws : workSheets)
{
r += getRightEmptyArea(ws);
}
return r;
}
/**
* Plocha workarea nedotykajicich se konce desky *
*/
public int getLeftEmptyArea(WorkArea workSheet)
{
int area = 0;
for (WorkArea wa : workAreas)
{
if (!wa.intersect(workSheet)) continue; //nepatri to do tohoto sheetu
if (wa.getX2() == workSheet.getX2()) continue; //dotyka se to konce desky
area += wa.getArea();
}
return area;
}
public int getLeftEmptyArea()
{
int area = 0;
for (WorkArea ws : workSheets)
{
area += getLeftEmptyArea(ws);
}
return area;
}
public int getTotalArea()
{
int area = 0;
for (WorkArea ws : workSheets)
{
area += ws.getArea();
}
return area;
}
public void cut(Rect rct)
{
if (mostRightCut < rct.getX2()) mostRightCut = rct.getX2();
int n = workAreas.size();
for (int i = 0; i < n; i++)
{ //projdeme vsechny pracovni plochy
WorkArea_O1 wa = workAreas.get(i);
wa.isNew = false; //stavajici plosky oznacime ze nejsou nove
Rect[] ra = wa.split(rct); //a vsechny je rozdelime (pokud to jde)
if (ra != null)
{ //slo to
//workAreas.remove(wa); //plochu kterou jsme rezali odstranime
workAreas.set(i, null); //plochu kterou jsme rezali odstranime ze seznamu
for (Rect r : ra)
{ //vsechny nove casti pridame do seznamu
//if((r.width >= minElementSize)&&(r.height >= minElementSize)){
if ((Math.min(r.getWidth(), r.getHeight()) >= minMinElementSize) &&
(Math.max(r.getWidth(), r.getHeight()) >= minMaxElementSize))
{
//wanew.add(new WorkArea(r));
WorkArea_O1 wan = new WorkArea_O1(r);
wan.isNew = true;
workAreas.add(wan);
}
}
}
}
workAreas.pack();
//workAreas.addAll(wanew);
int i = 0;
while (i < workAreas.size())
{ //projdeme vsechny pracovni plochy
WorkArea_O1 wa = workAreas.get(i);
if (!wa.isNew)
{ //ploska neni nova tak to preskocime
i++;
continue;
}
if (isWorkAreaOverlapped(wa))
workAreas.remove(i); //pokud je nova ploska cela prekryta jinou ploskou, tak ji odstranime ze seznamu
else i++;
}
//workAreas.pack();
}
public WorkArea findTopLeftWorkArea(Dimension elementSize)
{
long min = Long.MAX_VALUE;
WorkArea_O1 best = null;
for (int i = 0; i < workAreas.size(); i++)
{
WorkArea_O1 wa = workAreas.get(i);
long dist = wa.getY() + wa.getX() * getPlateSize().getHeight();
if ((min > dist) && (wa.getWidth() >= elementSize.getWidth()) && (wa.getHeight() >= elementSize.getHeight()))
{
best = wa;
min = dist;
}
}
return best;
}
public WorkArea[] getWorkAreas()
{
WorkArea_O1[] was = new WorkArea_O1[workAreas.size()];
for (int i = 0; i < workAreas.size(); i++)
{
was[i] = workAreas.get(i);
}
return was;
}
/**
* zjistuje jestli je pracovni prostor wa cely prekryt jinym pracovnim prostorem
*/
protected boolean isWorkAreaOverlapped(WorkArea wa)
{
for (int i = 0; i < workAreas.size(); i++)
{
WorkArea w = workAreas.get(i);
if (w == wa) continue;
if (w.contains(wa)) return true;
}
return false;
}
public int getFreeArea()
{
int area = 0;
for (WorkArea wa : workAreas)
{
area += wa.getArea();
}
return area;
}
}
|
37284_1 | package AutomaticService;
import java.util.Dictionary;
import java.util.Hashtable;
import com.skype.ChatMessage;
import com.skype.ChatMessageAdapter;
import com.skype.Skype;
import com.skype.SkypeException;
import com.skype.User;
public class AutoAnswering {
private Dictionary<String, String> Clients = new Hashtable<String, String>();
public AutoAnswering() throws Exception {
System.out.println("Start Auto Answering ...");
Skype.setDaemon(false);
Skype.addChatMessageListener(new ChatMessageAdapter() {
public void chatMessageReceived(ChatMessage received)
throws SkypeException {
if (received.getType().equals(ChatMessage.Type.SAID)) {
User sender =received.getSender();
System.out.println(sender.getId() +" say:");
System.out.println(" "+received.getContent() );
String answer = Answer(sender.getId(), received.getContent());
received.getSender().send(answer);
}
}
});
System.out.println("Auto Answering started!");
}
private String Answer(String user, String message){
if(Clients.get(user)==null){
Clients.put(user, "state0");
return "Hello, this is automatic Call Center!\n\n"
+ "Choose what you want to do:\n"
+ "press 1 to log in\n"
+ "press 2 to connect to an agent\n"
+ "press 3 to hear options again\n";
}
else{
if(Clients.get(user)=="state0"){
if(message.equals("1")){
Clients.put(user, "state1");//klient przechodzi do innego taska
return "Loging in ...";
}
if(message.equals("2")){
Clients.put(user, "state2");//klient przechodzi do innego taska
return "Calling ...";
}
else{
return "Choose what you want to do:\n"
+ "press 1 to log in\n"
+ "press 2 to connect to an agent\n"
+ "press 3 to hear options again\n";
}
}
else
return "Error - You should be eighter calling or loging in";
}
}
}
| 180132/CallCenter | CallCenter/src/AutomaticService/AutoAnswering.java | 769 | //klient przechodzi do innego taska | line_comment | pl | package AutomaticService;
import java.util.Dictionary;
import java.util.Hashtable;
import com.skype.ChatMessage;
import com.skype.ChatMessageAdapter;
import com.skype.Skype;
import com.skype.SkypeException;
import com.skype.User;
public class AutoAnswering {
private Dictionary<String, String> Clients = new Hashtable<String, String>();
public AutoAnswering() throws Exception {
System.out.println("Start Auto Answering ...");
Skype.setDaemon(false);
Skype.addChatMessageListener(new ChatMessageAdapter() {
public void chatMessageReceived(ChatMessage received)
throws SkypeException {
if (received.getType().equals(ChatMessage.Type.SAID)) {
User sender =received.getSender();
System.out.println(sender.getId() +" say:");
System.out.println(" "+received.getContent() );
String answer = Answer(sender.getId(), received.getContent());
received.getSender().send(answer);
}
}
});
System.out.println("Auto Answering started!");
}
private String Answer(String user, String message){
if(Clients.get(user)==null){
Clients.put(user, "state0");
return "Hello, this is automatic Call Center!\n\n"
+ "Choose what you want to do:\n"
+ "press 1 to log in\n"
+ "press 2 to connect to an agent\n"
+ "press 3 to hear options again\n";
}
else{
if(Clients.get(user)=="state0"){
if(message.equals("1")){
Clients.put(user, "state1");//klient przechodzi do innego taska
return "Loging in ...";
}
if(message.equals("2")){
Clients.put(user, "state2");//kli<SUF>
return "Calling ...";
}
else{
return "Choose what you want to do:\n"
+ "press 1 to log in\n"
+ "press 2 to connect to an agent\n"
+ "press 3 to hear options again\n";
}
}
else
return "Error - You should be eighter calling or loging in";
}
}
}
|
7075_3 | /**
* @name Simple Java Calculator
* @package ph.calculator
* @file Main.java
* @author SORIA Pierre-Henry
* @email pierrehs@hotmail.com
* @link http://github.com/pH-7
* @copyright Copyright Pierre-Henry SORIA, All Rights Reserved.
* @license Apache (http://www.apache.org/licenses/LICENSE-2.0)
* @create 2012-03-30
*
* @modifiedby Achintha Gunasekara
* @modweb http://www.achinthagunasekara.com
* @modemail contact@achinthagunasekara.com
*/
package simplejavacalculator;
public class SimpleJavaCalculator {
public static void main(String[] args) {
//cokolwiek moze nie
//wprowadzam zmiane jeszcze raz
//3ci komentarz
//4ty komentarz
UI uiCal = new UI();
uiCal.init();
}
}
| 180201/ZPI-01 | src/simplejavacalculator/SimpleJavaCalculator.java | 283 | //3ci komentarz | line_comment | pl | /**
* @name Simple Java Calculator
* @package ph.calculator
* @file Main.java
* @author SORIA Pierre-Henry
* @email pierrehs@hotmail.com
* @link http://github.com/pH-7
* @copyright Copyright Pierre-Henry SORIA, All Rights Reserved.
* @license Apache (http://www.apache.org/licenses/LICENSE-2.0)
* @create 2012-03-30
*
* @modifiedby Achintha Gunasekara
* @modweb http://www.achinthagunasekara.com
* @modemail contact@achinthagunasekara.com
*/
package simplejavacalculator;
public class SimpleJavaCalculator {
public static void main(String[] args) {
//cokolwiek moze nie
//wprowadzam zmiane jeszcze raz
//3ci<SUF>
//4ty komentarz
UI uiCal = new UI();
uiCal.init();
}
}
|
146252_1 | package pl.edwi.app;
import com.sun.java.swing.plaf.windows.WindowsLookAndFeel;
import org.apache.lucene.analysis.Analyzer;
import org.apache.lucene.analysis.TokenStream;
import org.apache.lucene.analysis.standard.StandardAnalyzer;
import org.apache.lucene.document.Document;
import org.apache.lucene.index.DirectoryReader;
import org.apache.lucene.index.Fields;
import org.apache.lucene.index.IndexReader;
import org.apache.lucene.queries.mlt.MoreLikeThis;
import org.apache.lucene.search.*;
import org.apache.lucene.search.highlight.*;
import org.apache.lucene.store.Directory;
import org.apache.lucene.store.FSDirectory;
import org.apache.lucene.util.QueryBuilder;
import pl.edwi.tool.Try;
import pl.edwi.ui.FindResult7;
import pl.edwi.ui.FindTableMode7;
import javax.swing.*;
import javax.swing.table.TableColumn;
import javax.swing.table.TableColumnModel;
import java.awt.*;
import java.awt.event.ComponentAdapter;
import java.awt.event.ComponentEvent;
import java.awt.event.WindowAdapter;
import java.awt.event.WindowEvent;
import java.io.IOException;
import java.nio.file.Paths;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
@SuppressWarnings("Duplicates")
public class App7b {
private JPanel jPanel;
private JTextField findText;
private JComboBox<String> findType;
private JComboBox<String> findWhere;
private JButton findButton;
private JTable resultTable;
private JLabel statusText;
private FindTableMode7 findTableModel;
public App7b(Analyzer analyzer, IndexReader reader) {
}
public static void main(String[] args) throws IOException {
try {
UIManager.setLookAndFeel(WindowsLookAndFeel.class.getName());
} catch (ClassNotFoundException | InstantiationException |
UnsupportedLookAndFeelException | IllegalAccessException ignored) {
}
Analyzer analyzer = new StandardAnalyzer();
Directory index = FSDirectory.open(Paths.get(App7a.LUCENE_DIR));
IndexReader reader = DirectoryReader.open(index);
App7b app7b = new App7b(analyzer, reader);
JFrame frame = new JFrame("Bot internetowy");
frame.setContentPane(app7b.jPanel);
frame.setDefaultCloseOperation(WindowConstants.EXIT_ON_CLOSE);
frame.pack();
frame.setLocationRelativeTo(null);
frame.setVisible(true);
Component p = app7b.jPanel;
while (p != null && !(p instanceof Window)) {
p = p.getParent();
}
if (p != null) {
((Window) p).addWindowListener(new WindowAdapter() {
public void windowClosing(WindowEvent winEvt) {
Try.ex(reader::close);
Try.ex(index::close);
Try.ex(analyzer::close);
}
});
}
app7b.findType.addItem("zawiera");
app7b.findType.addItem("dokładne");
app7b.findWhere.addItem("w treści");
app7b.findWhere.addItem("w adresie");
app7b.jPanel.addComponentListener(new ComponentAdapter() {
@Override
public void componentResized(ComponentEvent e) {
app7b.resizeResultTableColumns();
}
});
app7b.findText.addActionListener((event) -> app7b.search(analyzer, reader));
app7b.findButton.addActionListener((event) -> app7b.search(analyzer, reader));
app7b.findTableModel = new FindTableMode7();
app7b.resultTable.setModel(app7b.findTableModel);
}
private void resizeResultTableColumns() {
float[] columnWidthPercentage = {2, 38, 30, 30};
int tW = resultTable.getWidth();
TableColumnModel jTableColumnModel = resultTable.getColumnModel();
int cantCols = jTableColumnModel.getColumnCount();
for (int i = 0; i < cantCols; i++) {
TableColumn column = jTableColumnModel.getColumn(i);
int pWidth = Math.round(columnWidthPercentage[i] * tW);
column.setPreferredWidth(pWidth);
}
}
private void search(Analyzer analyzer, IndexReader reader) {
long currentTimeMillis = System.currentTimeMillis();
String findTextStr = findText.getText();
int findTypeIndex = findType.getSelectedIndex();
int findWhereIndex = findWhere.getSelectedIndex();
String field = findWhereIndex == 0 ? "text" : "url_1";
try {
QueryBuilder queryBuilder = new QueryBuilder(analyzer);
Query query = findTypeIndex == 0
? queryBuilder.createBooleanQuery(field, findTextStr, BooleanClause.Occur.MUST) // zawiera
: queryBuilder.createPhraseQuery(field, findTextStr); // dokładnie
if (query == null) {
query = findTextStr.trim().isEmpty()
? new MatchAllDocsQuery()
: new MatchNoDocsQuery();
}
IndexSearcher searcher = new IndexSearcher(reader);
MoreLikeThis mlt = new MoreLikeThis(reader);
mlt.setAnalyzer(analyzer);
mlt.setFieldNames(new String[]{"text"});
TopDocs topDocs = searcher.search(query, 5);
ScoreDoc[] topHits = topDocs.scoreDocs;
statusText.setText(
String.format("Znaleziono %d wyników. (%d)", topDocs.totalHits, currentTimeMillis)
);
Formatter formatter = new SimpleHTMLFormatter();
Highlighter highlighter = new Highlighter(formatter, new QueryScorer(query));
List<FindResult7> findResults = new ArrayList<>(5);
for (ScoreDoc hit : topHits) {
FindResult7 fr = new FindResult7();
Document doc = searcher.doc(hit.doc);
fr.resultUrl = doc.get("url_0");
String content = doc.get(field);
Fields termVectors = reader.getTermVectors(hit.doc);
TokenStream tokenStream = TokenSources.getTokenStream(field, termVectors, content, analyzer, -1);
TextFragment[] frag = highlighter.getBestTextFragments(tokenStream, content, false, 1);
if (frag.length > 0) {
fr.matchStr = frag[0].toString().trim();
}
Query queryMlt = mlt.like(hit.doc);
TopDocs similarDocs = searcher.search(queryMlt, 3);
if (similarDocs.totalHits > 1) {
ScoreDoc similarHit =
Arrays.stream(similarDocs.scoreDocs)
.filter(h -> h.doc != hit.doc)
.findFirst()
.orElse(null);
Document similarDoc = searcher.doc(similarHit.doc);
fr.similarUrl = similarDoc.get("url_0");
}
findResults.add(fr);
}
findTableModel.setModelData(findResults);
resizeResultTableColumns();
} catch (IOException e) {
statusText.setText(
String.format("Wystąpił błąd %s wyników. (%d)", e.toString(), currentTimeMillis)
);
} catch (InvalidTokenOffsetsException e) {
e.printStackTrace();
}
}
}
| 180254/edwi | src/main/java/pl/edwi/app/App7b.java | 2,099 | // dokładnie | line_comment | pl | package pl.edwi.app;
import com.sun.java.swing.plaf.windows.WindowsLookAndFeel;
import org.apache.lucene.analysis.Analyzer;
import org.apache.lucene.analysis.TokenStream;
import org.apache.lucene.analysis.standard.StandardAnalyzer;
import org.apache.lucene.document.Document;
import org.apache.lucene.index.DirectoryReader;
import org.apache.lucene.index.Fields;
import org.apache.lucene.index.IndexReader;
import org.apache.lucene.queries.mlt.MoreLikeThis;
import org.apache.lucene.search.*;
import org.apache.lucene.search.highlight.*;
import org.apache.lucene.store.Directory;
import org.apache.lucene.store.FSDirectory;
import org.apache.lucene.util.QueryBuilder;
import pl.edwi.tool.Try;
import pl.edwi.ui.FindResult7;
import pl.edwi.ui.FindTableMode7;
import javax.swing.*;
import javax.swing.table.TableColumn;
import javax.swing.table.TableColumnModel;
import java.awt.*;
import java.awt.event.ComponentAdapter;
import java.awt.event.ComponentEvent;
import java.awt.event.WindowAdapter;
import java.awt.event.WindowEvent;
import java.io.IOException;
import java.nio.file.Paths;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
@SuppressWarnings("Duplicates")
public class App7b {
private JPanel jPanel;
private JTextField findText;
private JComboBox<String> findType;
private JComboBox<String> findWhere;
private JButton findButton;
private JTable resultTable;
private JLabel statusText;
private FindTableMode7 findTableModel;
public App7b(Analyzer analyzer, IndexReader reader) {
}
public static void main(String[] args) throws IOException {
try {
UIManager.setLookAndFeel(WindowsLookAndFeel.class.getName());
} catch (ClassNotFoundException | InstantiationException |
UnsupportedLookAndFeelException | IllegalAccessException ignored) {
}
Analyzer analyzer = new StandardAnalyzer();
Directory index = FSDirectory.open(Paths.get(App7a.LUCENE_DIR));
IndexReader reader = DirectoryReader.open(index);
App7b app7b = new App7b(analyzer, reader);
JFrame frame = new JFrame("Bot internetowy");
frame.setContentPane(app7b.jPanel);
frame.setDefaultCloseOperation(WindowConstants.EXIT_ON_CLOSE);
frame.pack();
frame.setLocationRelativeTo(null);
frame.setVisible(true);
Component p = app7b.jPanel;
while (p != null && !(p instanceof Window)) {
p = p.getParent();
}
if (p != null) {
((Window) p).addWindowListener(new WindowAdapter() {
public void windowClosing(WindowEvent winEvt) {
Try.ex(reader::close);
Try.ex(index::close);
Try.ex(analyzer::close);
}
});
}
app7b.findType.addItem("zawiera");
app7b.findType.addItem("dokładne");
app7b.findWhere.addItem("w treści");
app7b.findWhere.addItem("w adresie");
app7b.jPanel.addComponentListener(new ComponentAdapter() {
@Override
public void componentResized(ComponentEvent e) {
app7b.resizeResultTableColumns();
}
});
app7b.findText.addActionListener((event) -> app7b.search(analyzer, reader));
app7b.findButton.addActionListener((event) -> app7b.search(analyzer, reader));
app7b.findTableModel = new FindTableMode7();
app7b.resultTable.setModel(app7b.findTableModel);
}
private void resizeResultTableColumns() {
float[] columnWidthPercentage = {2, 38, 30, 30};
int tW = resultTable.getWidth();
TableColumnModel jTableColumnModel = resultTable.getColumnModel();
int cantCols = jTableColumnModel.getColumnCount();
for (int i = 0; i < cantCols; i++) {
TableColumn column = jTableColumnModel.getColumn(i);
int pWidth = Math.round(columnWidthPercentage[i] * tW);
column.setPreferredWidth(pWidth);
}
}
private void search(Analyzer analyzer, IndexReader reader) {
long currentTimeMillis = System.currentTimeMillis();
String findTextStr = findText.getText();
int findTypeIndex = findType.getSelectedIndex();
int findWhereIndex = findWhere.getSelectedIndex();
String field = findWhereIndex == 0 ? "text" : "url_1";
try {
QueryBuilder queryBuilder = new QueryBuilder(analyzer);
Query query = findTypeIndex == 0
? queryBuilder.createBooleanQuery(field, findTextStr, BooleanClause.Occur.MUST) // zawiera
: queryBuilder.createPhraseQuery(field, findTextStr); // dok<SUF>
if (query == null) {
query = findTextStr.trim().isEmpty()
? new MatchAllDocsQuery()
: new MatchNoDocsQuery();
}
IndexSearcher searcher = new IndexSearcher(reader);
MoreLikeThis mlt = new MoreLikeThis(reader);
mlt.setAnalyzer(analyzer);
mlt.setFieldNames(new String[]{"text"});
TopDocs topDocs = searcher.search(query, 5);
ScoreDoc[] topHits = topDocs.scoreDocs;
statusText.setText(
String.format("Znaleziono %d wyników. (%d)", topDocs.totalHits, currentTimeMillis)
);
Formatter formatter = new SimpleHTMLFormatter();
Highlighter highlighter = new Highlighter(formatter, new QueryScorer(query));
List<FindResult7> findResults = new ArrayList<>(5);
for (ScoreDoc hit : topHits) {
FindResult7 fr = new FindResult7();
Document doc = searcher.doc(hit.doc);
fr.resultUrl = doc.get("url_0");
String content = doc.get(field);
Fields termVectors = reader.getTermVectors(hit.doc);
TokenStream tokenStream = TokenSources.getTokenStream(field, termVectors, content, analyzer, -1);
TextFragment[] frag = highlighter.getBestTextFragments(tokenStream, content, false, 1);
if (frag.length > 0) {
fr.matchStr = frag[0].toString().trim();
}
Query queryMlt = mlt.like(hit.doc);
TopDocs similarDocs = searcher.search(queryMlt, 3);
if (similarDocs.totalHits > 1) {
ScoreDoc similarHit =
Arrays.stream(similarDocs.scoreDocs)
.filter(h -> h.doc != hit.doc)
.findFirst()
.orElse(null);
Document similarDoc = searcher.doc(similarHit.doc);
fr.similarUrl = similarDoc.get("url_0");
}
findResults.add(fr);
}
findTableModel.setModelData(findResults);
resizeResultTableColumns();
} catch (IOException e) {
statusText.setText(
String.format("Wystąpił błąd %s wyników. (%d)", e.toString(), currentTimeMillis)
);
} catch (InvalidTokenOffsetsException e) {
e.printStackTrace();
}
}
}
|
160313_6 | /*
* To change this license header, choose License Headers in Project Properties.
* To change this template file, choose Tools | Templates
* and open the template in the editor.
*/
package dao;
import entities.Osoba;
import java.util.List;
/**
*
* @author ZTI
*/
public interface OsobaDAO {
//Zwraca listę wszystkich działów
List<Osoba> getAll();
//Zwraca osobę o podanym id
Osoba get(int id);
//Wstawia do bazy nową osobę
void create(Osoba osoba);
//Aktualizuje osobę
void update(Osoba osoba);
//Usuwa osobę
void delete(Osoba osoba);
//czyści tabelę
void clearTable();
}
| 19Pietruszka20/bazydanych | hibernatejava/AiR_labA_DAO_2018/src/dao/OsobaDAO.java | 244 | //Usuwa osobę
| line_comment | pl | /*
* To change this license header, choose License Headers in Project Properties.
* To change this template file, choose Tools | Templates
* and open the template in the editor.
*/
package dao;
import entities.Osoba;
import java.util.List;
/**
*
* @author ZTI
*/
public interface OsobaDAO {
//Zwraca listę wszystkich działów
List<Osoba> getAll();
//Zwraca osobę o podanym id
Osoba get(int id);
//Wstawia do bazy nową osobę
void create(Osoba osoba);
//Aktualizuje osobę
void update(Osoba osoba);
//Usu<SUF>
void delete(Osoba osoba);
//czyści tabelę
void clearTable();
}
|
172890_2 | package org.pwr.tirt.mod;
import org.jsoup.Connection;
import org.jsoup.Jsoup;
import org.jsoup.nodes.Document;
import org.jsoup.nodes.Element;
import org.jsoup.select.Elements;
import org.pwr.tirt.utils.StringUtils;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.stereotype.Component;
@Component
public class ConnectionProcessor {
@Autowired
StringUtils stringUtils;
private StringBuilder content = new StringBuilder();
private Document doc = null;
public String fetchData() {
try {
//wchodzimy na jsos po ciastka
Connection.Response getCookies = Jsoup.connect("https://jsos.pwr.edu.pl/")
.method(Connection.Method.GET)
.execute();
//z tego co dostajemy pobieramy token i key
Connection.Response loginForm = Jsoup.connect("https://jsos.pwr.edu.pl/index.php/site/loginAsStudent")
.method(Connection.Method.GET)
.cookies(getCookies.cookies())
.execute();
String uriWithToken = loginForm.url().toString();
System.err.println(uriWithToken);
Document document = Jsoup.connect("http://oauth.pwr.edu.pl/oauth/authenticate")
.data("cookieexists", "false")
.data("oauth_symbol", "EIS")
.data("oauth_locale", "pl")
.data("oauth_token", stringUtils.getTokenFromUrl(uriWithToken))
.data("oauth_consumer_key", stringUtils.getConsumerKeyFromUrl(uriWithToken))
.data("username", "pwr194225")
.data("password", "marley1992bob")
.followRedirects(true)
.cookies(loginForm.cookies())
.post();
// doc =
// Jsoup.connect("https://jsos.pwr.edu.pl/index.php/student/zajecia").get();
Elements newsHeadlines = document.select("div");
for (Element el : newsHeadlines) {
content.append(el.toString());
}
} catch (Exception ex) {
ex.printStackTrace();
}
return content.toString();
}
}
| 19mateusz92/TIRTproject | src/main/java/org/pwr/tirt/mod/ConnectionProcessor.java | 636 | //z tego co dostajemy pobieramy token i key | line_comment | pl | package org.pwr.tirt.mod;
import org.jsoup.Connection;
import org.jsoup.Jsoup;
import org.jsoup.nodes.Document;
import org.jsoup.nodes.Element;
import org.jsoup.select.Elements;
import org.pwr.tirt.utils.StringUtils;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.stereotype.Component;
@Component
public class ConnectionProcessor {
@Autowired
StringUtils stringUtils;
private StringBuilder content = new StringBuilder();
private Document doc = null;
public String fetchData() {
try {
//wchodzimy na jsos po ciastka
Connection.Response getCookies = Jsoup.connect("https://jsos.pwr.edu.pl/")
.method(Connection.Method.GET)
.execute();
//z t<SUF>
Connection.Response loginForm = Jsoup.connect("https://jsos.pwr.edu.pl/index.php/site/loginAsStudent")
.method(Connection.Method.GET)
.cookies(getCookies.cookies())
.execute();
String uriWithToken = loginForm.url().toString();
System.err.println(uriWithToken);
Document document = Jsoup.connect("http://oauth.pwr.edu.pl/oauth/authenticate")
.data("cookieexists", "false")
.data("oauth_symbol", "EIS")
.data("oauth_locale", "pl")
.data("oauth_token", stringUtils.getTokenFromUrl(uriWithToken))
.data("oauth_consumer_key", stringUtils.getConsumerKeyFromUrl(uriWithToken))
.data("username", "pwr194225")
.data("password", "marley1992bob")
.followRedirects(true)
.cookies(loginForm.cookies())
.post();
// doc =
// Jsoup.connect("https://jsos.pwr.edu.pl/index.php/student/zajecia").get();
Elements newsHeadlines = document.select("div");
for (Element el : newsHeadlines) {
content.append(el.toString());
}
} catch (Exception ex) {
ex.printStackTrace();
}
return content.toString();
}
}
|
117992_0 | package medicalCentre;
import lombok.AllArgsConstructor;
import lombok.Data;
import org.hibernate.Session;
import org.hibernate.SessionFactory;
import org.hibernate.Transaction;
import java.time.LocalDate;
import java.time.LocalDateTime;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
@Data
@AllArgsConstructor
public class MedicalService {
/*
Stworzyć klasę service.MedicalService, a w niej publiczne metody:
0. Metoda dodająca dane
1. Metoda przyjmująca w argumencie String pesel i zwracająca typ List<Appointment>, która dla pacjenta o danym peselu zwróci jego wszystkie przyszłe wizyty.
2. Metoda przyjmująca w argumencie String identificator i zwracająca typ List<Appointment>, która dla lekarza o danym identyfikatorze zwróci jego wszystkie przyszłe wizyty.
3. Metoda przyjmująca w argumencie SpecialityType type i zwracająca List<Doctor>, która dla podanej w argumencie specjalności zwróci wszystkich lekarzy.
4. Metoda przyjmująca w argumentach Patient patient, Doctor doctor, LocalDateTime dateFrom, LocalDateTime dateTo zapisująca w bazie wizytę dla pacjenta do danego doktora na dany przedział godzinowy. Metoda ma zwrócić obiekt Appointment.
5. Metoda przyjmująca w argumencie String pesel i zwracająca typ Address, która dla pacjenta o danym peselu zwróci jego adres.
*/
public SessionFactory sessionFactory;
//0
public void setDataInDb() {
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Patient patient1 = new Patient(null, "Adam", "Smith", "97050535928", LocalDate.of(1997, 05, 05), null, null);
Patient patient2 = new Patient(null, "Jordan", "Brake", "88020298321", LocalDate.of(1988, 02, 02), null, null);
Patient patient3 = new Patient(null, "John", "Kowalski", "75030210928", LocalDate.of(1975, 03, 02), null, null);
Address address1 = new Address(null, "LA", "45th", "10", null);
Address address2 = new Address(null, "NYC", "15th", "20", null);
Address address3 = new Address(null, "San Francisco", "25th", "30", null);
patient1.setAddress(address1);
patient2.setAddress(address2);
patient3.setAddress(address3);
address1.setPatient(patient1);
address2.setPatient(patient2);
address3.setPatient(patient3);
Appointment appointment1 = new Appointment(null, LocalDateTime.now().plusDays(1), LocalDateTime.now().plusDays(2), patient1, null);
Appointment appointment2 = new Appointment(null, LocalDateTime.now().plusDays(3), LocalDateTime.now().plusDays(7), patient2, null);
Appointment appointment3 = new Appointment(null, LocalDateTime.now().plusDays(23), LocalDateTime.now(), patient3, null);
Appointment appointment4 = new Appointment(null, LocalDateTime.now().plusDays(5), LocalDateTime.now().plusMonths(6), patient1, null);
Appointment appointment5 = new Appointment(null, LocalDateTime.now().plusHours(8), LocalDateTime.now().plusYears(9), patient2, null);
Appointment appointment6 = new Appointment(null, LocalDateTime.now(), LocalDateTime.now().plusHours(1), patient3, null);
patient1.setAppointments(Arrays.asList(appointment1, appointment4));
patient2.setAppointments(Arrays.asList(appointment2, appointment5));
patient3.setAppointments(Arrays.asList(appointment3, appointment6));
Doctor doctor1 = new Doctor(null, "Anna", "Crane", "12345", Arrays.asList(appointment1, appointment4), null);
Doctor doctor2 = new Doctor(null, "Maria", "Ways", "23456", Arrays.asList(appointment2, appointment5), null);
Doctor doctor3 = new Doctor(null, "Ian", "Pickle", "34567", Arrays.asList(appointment3, appointment6), null);
appointment1.setDoctor(doctor1);
appointment2.setDoctor(doctor2);
appointment3.setDoctor(doctor3);
appointment4.setDoctor(doctor1);
appointment5.setDoctor(doctor2);
appointment6.setDoctor(doctor3);
Speciality speciality1 = new Speciality(null, SpecialityType.INTERNISTA, Arrays.asList(doctor1, doctor2, doctor3));
Speciality speciality2 = new Speciality(null, SpecialityType.KARDIOLOG, Arrays.asList(doctor1, doctor2, doctor3));
Speciality speciality3 = new Speciality(null, SpecialityType.ORTOPEDA, Arrays.asList(doctor1, doctor2, doctor3));
doctor1.setSpecialities(Arrays.asList(speciality1, speciality2, speciality3));
doctor2.setSpecialities(Arrays.asList(speciality1, speciality2, speciality3));
doctor3.setSpecialities(Arrays.asList(speciality1, speciality2, speciality3));
session.save(patient1);
session.save(patient2);
session.save(patient3);
session.save(address1);
session.save(address2);
session.save(address3);
session.save(appointment1);
session.save(appointment2);
session.save(appointment3);
session.save(appointment4);
session.save(appointment5);
session.save(appointment6);
session.save(doctor1);
session.save(doctor2);
session.save(doctor3);
session.save(speciality1);
session.save(speciality2);
session.save(speciality3);
transaction.commit();
} catch (Exception e) {
System.err.println(e.getMessage());
}
}
//1
public List<Appointment> getAllAppointmentsOfPatient(String pesel) {
List<Appointment> appointmentsToReturn = new ArrayList<>();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Patient patient = session.createQuery(
"select p from Patient p join fetch p.appointments where p.pesel = :inputPesel",
Patient.class)
.setParameter("inputPesel", pesel)
.uniqueResult();
transaction.commit();
if (patient != null) {
for (Appointment appointment : patient.getAppointments()) {
if (appointment.getDateFrom().isAfter(LocalDateTime.now())) {
appointmentsToReturn.add(appointment);
}
}
return appointmentsToReturn;
} else {
System.out.println("No patient with such pesel found.");
return Collections.emptyList();
}
} catch (Exception e) {
System.err.println(e.getMessage());
}
return appointmentsToReturn;
}
//2
public List<Appointment> getAllAppointmentsOfDoctor(String identifier) {
List<Appointment> appointmentsToReturn = new ArrayList<>();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Doctor doctor = (Doctor) session.createQuery("from Doctor d where d.identifier = :inputIdentifier")
.setParameter("inputIdentifier", identifier)
.getSingleResult();
transaction.commit();
if (doctor != null) {
for (Appointment appointment : doctor.getAppointments()) {
if (appointment.getDateFrom().isAfter(LocalDateTime.now())) {
appointmentsToReturn.add(appointment);
}
}
return appointmentsToReturn;
} else {
System.out.println("No doctor with such identifier found.");
return Collections.emptyList();
}
} catch (Exception e) {
System.err.println(e.getMessage());
}
return appointmentsToReturn;
}
//3
public List<Doctor> getAllDoctorsBeing(SpecialityType type) {
List<Doctor> doctorsToReturn = new ArrayList<>();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Speciality speciality = session.createQuery("from Speciality s where s.name = :inputSpecialty", Speciality.class)
.setParameter("inputSpecialty", type)
.getSingleResult();
List<Doctor> doctors = speciality.getDoctors();
transaction.commit();
if (doctors.size() > 0) {
for (Doctor doctor : doctors) {
doctorsToReturn.add(doctor);
}
return doctorsToReturn;
} else {
System.out.println("No doctor with such speciality found.");
return Collections.emptyList();
}
} catch (Exception e) {
System.err.println(e.getMessage());
}
return doctorsToReturn;
}
//4
public Appointment makeAnAppointment(Patient patient, Doctor doctor, LocalDateTime dadeFrom, LocalDateTime dateTo) {
Appointment appointmentToReturn = new Appointment();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Appointment appointmentToSave = new Appointment(null, dadeFrom, dateTo, patient, doctor);
session.save(appointmentToSave);
appointmentToReturn = appointmentToSave;
} catch (Exception e) {
System.err.println(e.getMessage());
}
return appointmentToReturn;
}
//5
public Address getPatientsAddress(String pesel) {
Address addressToReturn = new Address();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Patient patient = (Patient) session.createQuery("from Patient p where p.pesel = :inputPesel")
.setParameter("inputPesel", pesel)
.getSingleResult();
transaction.commit();
if (patient != null) {
addressToReturn = patient.getAddress();
} else {
System.out.println("No patient with such pesel found.");
return new Address();
}
} catch (Exception e) {
System.err.println(e.getMessage());
}
return addressToReturn;
}
}
| 19pawel970415/Hibernate | src/main/java/medicalCentre/MedicalService.java | 2,960 | /*
Stworzyć klasę service.MedicalService, a w niej publiczne metody:
0. Metoda dodająca dane
1. Metoda przyjmująca w argumencie String pesel i zwracająca typ List<Appointment>, która dla pacjenta o danym peselu zwróci jego wszystkie przyszłe wizyty.
2. Metoda przyjmująca w argumencie String identificator i zwracająca typ List<Appointment>, która dla lekarza o danym identyfikatorze zwróci jego wszystkie przyszłe wizyty.
3. Metoda przyjmująca w argumencie SpecialityType type i zwracająca List<Doctor>, która dla podanej w argumencie specjalności zwróci wszystkich lekarzy.
4. Metoda przyjmująca w argumentach Patient patient, Doctor doctor, LocalDateTime dateFrom, LocalDateTime dateTo zapisująca w bazie wizytę dla pacjenta do danego doktora na dany przedział godzinowy. Metoda ma zwrócić obiekt Appointment.
5. Metoda przyjmująca w argumencie String pesel i zwracająca typ Address, która dla pacjenta o danym peselu zwróci jego adres.
*/ | block_comment | pl | package medicalCentre;
import lombok.AllArgsConstructor;
import lombok.Data;
import org.hibernate.Session;
import org.hibernate.SessionFactory;
import org.hibernate.Transaction;
import java.time.LocalDate;
import java.time.LocalDateTime;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
@Data
@AllArgsConstructor
public class MedicalService {
/*
Stwo<SUF>*/
public SessionFactory sessionFactory;
//0
public void setDataInDb() {
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Patient patient1 = new Patient(null, "Adam", "Smith", "97050535928", LocalDate.of(1997, 05, 05), null, null);
Patient patient2 = new Patient(null, "Jordan", "Brake", "88020298321", LocalDate.of(1988, 02, 02), null, null);
Patient patient3 = new Patient(null, "John", "Kowalski", "75030210928", LocalDate.of(1975, 03, 02), null, null);
Address address1 = new Address(null, "LA", "45th", "10", null);
Address address2 = new Address(null, "NYC", "15th", "20", null);
Address address3 = new Address(null, "San Francisco", "25th", "30", null);
patient1.setAddress(address1);
patient2.setAddress(address2);
patient3.setAddress(address3);
address1.setPatient(patient1);
address2.setPatient(patient2);
address3.setPatient(patient3);
Appointment appointment1 = new Appointment(null, LocalDateTime.now().plusDays(1), LocalDateTime.now().plusDays(2), patient1, null);
Appointment appointment2 = new Appointment(null, LocalDateTime.now().plusDays(3), LocalDateTime.now().plusDays(7), patient2, null);
Appointment appointment3 = new Appointment(null, LocalDateTime.now().plusDays(23), LocalDateTime.now(), patient3, null);
Appointment appointment4 = new Appointment(null, LocalDateTime.now().plusDays(5), LocalDateTime.now().plusMonths(6), patient1, null);
Appointment appointment5 = new Appointment(null, LocalDateTime.now().plusHours(8), LocalDateTime.now().plusYears(9), patient2, null);
Appointment appointment6 = new Appointment(null, LocalDateTime.now(), LocalDateTime.now().plusHours(1), patient3, null);
patient1.setAppointments(Arrays.asList(appointment1, appointment4));
patient2.setAppointments(Arrays.asList(appointment2, appointment5));
patient3.setAppointments(Arrays.asList(appointment3, appointment6));
Doctor doctor1 = new Doctor(null, "Anna", "Crane", "12345", Arrays.asList(appointment1, appointment4), null);
Doctor doctor2 = new Doctor(null, "Maria", "Ways", "23456", Arrays.asList(appointment2, appointment5), null);
Doctor doctor3 = new Doctor(null, "Ian", "Pickle", "34567", Arrays.asList(appointment3, appointment6), null);
appointment1.setDoctor(doctor1);
appointment2.setDoctor(doctor2);
appointment3.setDoctor(doctor3);
appointment4.setDoctor(doctor1);
appointment5.setDoctor(doctor2);
appointment6.setDoctor(doctor3);
Speciality speciality1 = new Speciality(null, SpecialityType.INTERNISTA, Arrays.asList(doctor1, doctor2, doctor3));
Speciality speciality2 = new Speciality(null, SpecialityType.KARDIOLOG, Arrays.asList(doctor1, doctor2, doctor3));
Speciality speciality3 = new Speciality(null, SpecialityType.ORTOPEDA, Arrays.asList(doctor1, doctor2, doctor3));
doctor1.setSpecialities(Arrays.asList(speciality1, speciality2, speciality3));
doctor2.setSpecialities(Arrays.asList(speciality1, speciality2, speciality3));
doctor3.setSpecialities(Arrays.asList(speciality1, speciality2, speciality3));
session.save(patient1);
session.save(patient2);
session.save(patient3);
session.save(address1);
session.save(address2);
session.save(address3);
session.save(appointment1);
session.save(appointment2);
session.save(appointment3);
session.save(appointment4);
session.save(appointment5);
session.save(appointment6);
session.save(doctor1);
session.save(doctor2);
session.save(doctor3);
session.save(speciality1);
session.save(speciality2);
session.save(speciality3);
transaction.commit();
} catch (Exception e) {
System.err.println(e.getMessage());
}
}
//1
public List<Appointment> getAllAppointmentsOfPatient(String pesel) {
List<Appointment> appointmentsToReturn = new ArrayList<>();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Patient patient = session.createQuery(
"select p from Patient p join fetch p.appointments where p.pesel = :inputPesel",
Patient.class)
.setParameter("inputPesel", pesel)
.uniqueResult();
transaction.commit();
if (patient != null) {
for (Appointment appointment : patient.getAppointments()) {
if (appointment.getDateFrom().isAfter(LocalDateTime.now())) {
appointmentsToReturn.add(appointment);
}
}
return appointmentsToReturn;
} else {
System.out.println("No patient with such pesel found.");
return Collections.emptyList();
}
} catch (Exception e) {
System.err.println(e.getMessage());
}
return appointmentsToReturn;
}
//2
public List<Appointment> getAllAppointmentsOfDoctor(String identifier) {
List<Appointment> appointmentsToReturn = new ArrayList<>();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Doctor doctor = (Doctor) session.createQuery("from Doctor d where d.identifier = :inputIdentifier")
.setParameter("inputIdentifier", identifier)
.getSingleResult();
transaction.commit();
if (doctor != null) {
for (Appointment appointment : doctor.getAppointments()) {
if (appointment.getDateFrom().isAfter(LocalDateTime.now())) {
appointmentsToReturn.add(appointment);
}
}
return appointmentsToReturn;
} else {
System.out.println("No doctor with such identifier found.");
return Collections.emptyList();
}
} catch (Exception e) {
System.err.println(e.getMessage());
}
return appointmentsToReturn;
}
//3
public List<Doctor> getAllDoctorsBeing(SpecialityType type) {
List<Doctor> doctorsToReturn = new ArrayList<>();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Speciality speciality = session.createQuery("from Speciality s where s.name = :inputSpecialty", Speciality.class)
.setParameter("inputSpecialty", type)
.getSingleResult();
List<Doctor> doctors = speciality.getDoctors();
transaction.commit();
if (doctors.size() > 0) {
for (Doctor doctor : doctors) {
doctorsToReturn.add(doctor);
}
return doctorsToReturn;
} else {
System.out.println("No doctor with such speciality found.");
return Collections.emptyList();
}
} catch (Exception e) {
System.err.println(e.getMessage());
}
return doctorsToReturn;
}
//4
public Appointment makeAnAppointment(Patient patient, Doctor doctor, LocalDateTime dadeFrom, LocalDateTime dateTo) {
Appointment appointmentToReturn = new Appointment();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Appointment appointmentToSave = new Appointment(null, dadeFrom, dateTo, patient, doctor);
session.save(appointmentToSave);
appointmentToReturn = appointmentToSave;
} catch (Exception e) {
System.err.println(e.getMessage());
}
return appointmentToReturn;
}
//5
public Address getPatientsAddress(String pesel) {
Address addressToReturn = new Address();
try (Session session = sessionFactory.openSession()) {
Transaction transaction = session.beginTransaction();
Patient patient = (Patient) session.createQuery("from Patient p where p.pesel = :inputPesel")
.setParameter("inputPesel", pesel)
.getSingleResult();
transaction.commit();
if (patient != null) {
addressToReturn = patient.getAddress();
} else {
System.out.println("No patient with such pesel found.");
return new Address();
}
} catch (Exception e) {
System.err.println(e.getMessage());
}
return addressToReturn;
}
}
|
139018_3 | package renderer;
import java.awt.*;
import java.util.ArrayList;
import maths.*;
/**
* Model 3D
*
* @author Bartosz Węgrzyn
*/
public class Model {
public ArrayList<Triangle> triangles = new ArrayList<>();
public Color color;
public Vector3 rotationAxis;
/**
* Tworzy nowy obiekt model
*
* @param triangles lista trójkątów
* @param color kolor modelu (jeden kolor na model)
* @author Bartosz Węgrzyn
*/
public Model(ArrayList<Triangle> triangles, Color color) {
this.triangles = triangles;
this.color = color;
updateVerticies();
}
public void setColor(Color color) {
this.color = color;
for (int i = 0; i < triangles.size(); i++) {
triangles.get(i).color = color;
}
}
public void scale(double scale) {
updateVerticies();
for (int i = 0; i < triangles.size(); i++) {
for (int j = 0; j < 3; j++) {
triangles.get(i).verticies[j].subtract(rotationAxis);
triangles.get(i).verticies[j].multiply(scale);
triangles.get(i).verticies[j].add(rotationAxis);
}
}
updateVerticies();
}
public void scale(int axis, double scale) {
updateVerticies();
for (int i = 0; i < triangles.size(); i++) {
for (int j = 0; j < 3; j++) {
if (axis == 0) {
triangles.get(i).verticies[j].x -= rotationAxis.x;
triangles.get(i).verticies[j].x *= scale;
triangles.get(i).verticies[j].x += rotationAxis.x;
}
if (axis == 1) {
triangles.get(i).verticies[j].y -= rotationAxis.y;
triangles.get(i).verticies[j].y *= scale;
triangles.get(i).verticies[j].y += rotationAxis.y;
}
if (axis == 2) {
triangles.get(i).verticies[j].z -= rotationAxis.z;
triangles.get(i).verticies[j].z *= scale;
triangles.get(i).verticies[j].z += rotationAxis.z;
}
}
}
updateVerticies();
}
public void updateVerticies() {
double avgX = 0, avgY = 0, avgZ = 0;
for (int i = 0; i < triangles.size(); i++) {
for (int j = 0; j < 3; j++) {
avgX += triangles.get(i).verticies[j].x;
avgY += triangles.get(i).verticies[j].y;
avgZ += triangles.get(i).verticies[j].z;
}
}
avgX /= (3 * triangles.size());
avgY /= (3 * triangles.size());
avgZ /= (3 * triangles.size());
rotationAxis = new Vector3(avgX, avgY, avgZ);
}
/**
* Dodaje wszystkie trójkąty tego modelu do innej listy trójkątów
*
* @param triangles lista trójkątów
* @author Bartosz Węgrzyn
*/
public void init(Triangles triangles) {
for (int i = 0; i < this.triangles.size(); i++) {
this.triangles.get(i).color = this.color;
triangles.triangles.add(this.triangles.get(i));
}
}
/**
* Usuwa wszystkie trójkąty tego modelu z innej listy trójkątów
*
* @param triangles lista trójkątów
* @author Bartosz Węgrzyn
*/
public void remove(Triangles triangles) {
for (int i = 0; i < this.triangles.size(); i++) {
triangles.triangles.remove(this.triangles.get(i));
}
}
/**
* Obraca model wokół własnej osi.
*
* @param axis 0 - oś x, 1 - oś y, 2 - oś z
* @param angle kąt obrotu
* @author Bartosz Węgrzyn
*/
public void rotate(int axis, double angle) {
for (int i = 0; i < triangles.size(); i++) {
if (axis == 0) {
triangles.get(i).rotatePitch(angle, false, rotationAxis);
} else if (axis == 1) {
triangles.get(i).rotateYaw(angle, false, rotationAxis);
} else if (axis == 2) {
triangles.get(i).rotateRoll(angle, false, rotationAxis);
}
}
updateVerticies();
}
public void rotate(int axis, Vector3 rotationAxisA, double angle) {
for (int i = 0; i < triangles.size(); i++) {
if (axis == 0) {
triangles.get(i).rotatePitch(angle, false, rotationAxisA);
} else if (axis == 1) {
triangles.get(i).rotateYaw(angle, false, rotationAxisA);
} else if (axis == 2) {
triangles.get(i).rotateRoll(angle, false, rotationAxisA);
}
}
updateVerticies();
}
/**
* Przesuwa model o dany wektor.
*
* @param displacement wektor przesunięcia
* @author Bartosz Węgrzyn
*/
public void move(Vector3 displacement) {
for (int i = 0; i < triangles.size(); i++) {
for (int j = 0; j < 3; j++) {
triangles.get(i).verticies[j].add(displacement);
}
}
updateVerticies();
}
}
| 2-718281828/gra_wektorowa | src/renderer/Model.java | 1,721 | /**
* Usuwa wszystkie trójkąty tego modelu z innej listy trójkątów
*
* @param triangles lista trójkątów
* @author Bartosz Węgrzyn
*/ | block_comment | pl | package renderer;
import java.awt.*;
import java.util.ArrayList;
import maths.*;
/**
* Model 3D
*
* @author Bartosz Węgrzyn
*/
public class Model {
public ArrayList<Triangle> triangles = new ArrayList<>();
public Color color;
public Vector3 rotationAxis;
/**
* Tworzy nowy obiekt model
*
* @param triangles lista trójkątów
* @param color kolor modelu (jeden kolor na model)
* @author Bartosz Węgrzyn
*/
public Model(ArrayList<Triangle> triangles, Color color) {
this.triangles = triangles;
this.color = color;
updateVerticies();
}
public void setColor(Color color) {
this.color = color;
for (int i = 0; i < triangles.size(); i++) {
triangles.get(i).color = color;
}
}
public void scale(double scale) {
updateVerticies();
for (int i = 0; i < triangles.size(); i++) {
for (int j = 0; j < 3; j++) {
triangles.get(i).verticies[j].subtract(rotationAxis);
triangles.get(i).verticies[j].multiply(scale);
triangles.get(i).verticies[j].add(rotationAxis);
}
}
updateVerticies();
}
public void scale(int axis, double scale) {
updateVerticies();
for (int i = 0; i < triangles.size(); i++) {
for (int j = 0; j < 3; j++) {
if (axis == 0) {
triangles.get(i).verticies[j].x -= rotationAxis.x;
triangles.get(i).verticies[j].x *= scale;
triangles.get(i).verticies[j].x += rotationAxis.x;
}
if (axis == 1) {
triangles.get(i).verticies[j].y -= rotationAxis.y;
triangles.get(i).verticies[j].y *= scale;
triangles.get(i).verticies[j].y += rotationAxis.y;
}
if (axis == 2) {
triangles.get(i).verticies[j].z -= rotationAxis.z;
triangles.get(i).verticies[j].z *= scale;
triangles.get(i).verticies[j].z += rotationAxis.z;
}
}
}
updateVerticies();
}
public void updateVerticies() {
double avgX = 0, avgY = 0, avgZ = 0;
for (int i = 0; i < triangles.size(); i++) {
for (int j = 0; j < 3; j++) {
avgX += triangles.get(i).verticies[j].x;
avgY += triangles.get(i).verticies[j].y;
avgZ += triangles.get(i).verticies[j].z;
}
}
avgX /= (3 * triangles.size());
avgY /= (3 * triangles.size());
avgZ /= (3 * triangles.size());
rotationAxis = new Vector3(avgX, avgY, avgZ);
}
/**
* Dodaje wszystkie trójkąty tego modelu do innej listy trójkątów
*
* @param triangles lista trójkątów
* @author Bartosz Węgrzyn
*/
public void init(Triangles triangles) {
for (int i = 0; i < this.triangles.size(); i++) {
this.triangles.get(i).color = this.color;
triangles.triangles.add(this.triangles.get(i));
}
}
/**
* Usuw<SUF>*/
public void remove(Triangles triangles) {
for (int i = 0; i < this.triangles.size(); i++) {
triangles.triangles.remove(this.triangles.get(i));
}
}
/**
* Obraca model wokół własnej osi.
*
* @param axis 0 - oś x, 1 - oś y, 2 - oś z
* @param angle kąt obrotu
* @author Bartosz Węgrzyn
*/
public void rotate(int axis, double angle) {
for (int i = 0; i < triangles.size(); i++) {
if (axis == 0) {
triangles.get(i).rotatePitch(angle, false, rotationAxis);
} else if (axis == 1) {
triangles.get(i).rotateYaw(angle, false, rotationAxis);
} else if (axis == 2) {
triangles.get(i).rotateRoll(angle, false, rotationAxis);
}
}
updateVerticies();
}
public void rotate(int axis, Vector3 rotationAxisA, double angle) {
for (int i = 0; i < triangles.size(); i++) {
if (axis == 0) {
triangles.get(i).rotatePitch(angle, false, rotationAxisA);
} else if (axis == 1) {
triangles.get(i).rotateYaw(angle, false, rotationAxisA);
} else if (axis == 2) {
triangles.get(i).rotateRoll(angle, false, rotationAxisA);
}
}
updateVerticies();
}
/**
* Przesuwa model o dany wektor.
*
* @param displacement wektor przesunięcia
* @author Bartosz Węgrzyn
*/
public void move(Vector3 displacement) {
for (int i = 0; i < triangles.size(); i++) {
for (int j = 0; j < 3; j++) {
triangles.get(i).verticies[j].add(displacement);
}
}
updateVerticies();
}
}
|
12291_6 | /**
* Pakiet in
*/
package in;
import java.io.File;
import java.io.FileNotFoundException;
import java.sql.Timestamp;
import java.text.DateFormat;
import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.Date;
import java.util.Scanner;
import testandexceptions.InvalidEventException;
import logmanager.Configuration;
import logmanager.QueueManager;
import logmanager.Event;
/**
* wejsciowy adapter pobierajacy dane z pliku.
* @author Mateusz Ratajczyk
*/
public class FileInputAdapter extends Thread implements InputAdapter {
/** Obiekt do klasy Configuration. */
private Configuration config;
/** Obiekt do klasy QueueManager. */
private QueueManager queue;
/** Zmienna do przechowywania kolumny timestamp (czas zdarzenia). */
private Timestamp[] timestamp = null;
/** Zmienna do przechowywania kolumny loglevel (typ zdarzenia). */
private String[] loglevel = null;
/** Zmienna do przechowywania kolumny details (opis zdarzenia). */
private String[] details = null;
/** Zmienna do przechowywania kolejnych spacji w linii z loga. */
private String[] parts;
/** Zmienna do przechowywania linii z loga. */
private String data = "";
/** Czas zdarzenia wykorzystywany do rzutowania. */
private Date date;
/** Konstruktor wypisujacy utworzenie adaptera. */
public FileInputAdapter() {
System.out.println("Utworzono Adapter Wejsciowy");
}
/**
* Metoda sluzaca do polaczenia z obiektem
* konfiguracji za pomoca referencji z rdzenia aplikacji.
* @param cnfg obiekt zawierajacy konfiguracje
*/
public final void setupConfig(final Configuration cnfg) {
this.config = cnfg;
}
/**
* Metoda sluzaca do polaczenia z obiektem
* kolejki za pomoca referencji z rdzenia aplikacji.
* @param que referencja do kolejki
*/
public final void connectToQueueManager(final QueueManager que) {
this.queue = que;
}
/**
* funkcja wywolania.
*/
public final void exec() { start(); }
/**
* do obslugi funkcji testowej.
* @param tmp test
* @return null
*/
@Override
public final String test(final String tmp) { return null; }
/**
* metoda sluzaca do tworzenia zdarzen.
*/
public final void createEvents() {
/** Zmienna do przechowywania czasu uspienia (w ms). */
final int timeToSleep = 1000;
for (int i = 0; i < config.getBatchSize(); ++i) {
if (timestamp[i] != null) {
Event a;
try {
a = new Event(timestamp[i], loglevel[i], details[i]);
while (!queue.acceptEvent(a)) {
System.out.println("Nie udalo sie dodac Eventu("
+ timestamp[i]
+ ", " + loglevel[i]
+ ", " + details[i]);
System.out.println("Ponawiam...");
try {
Thread.sleep(timeToSleep);
} catch (InterruptedException e) {
e.printStackTrace();
}
}
} catch (InvalidEventException e1) {
e1.printStackTrace();
}
System.out.println("Dodano Event("
+ timestamp[i] + ", "
+ loglevel[i] + ", "
+ details[i]);
}
}
}
/**
* metoda sluzaca do ustalania wartosci
* timestamp, loglevel oraz details.
* @param i index
*/
public final void setValues(final int i) {
/** Format czasu zdarzenia. */
DateFormat df = new SimpleDateFormat(
"yyyy-MM-dd'T'HH:mm:ss.SSS");
try {
date = (Date) df.parse((data.substring(1,
0 + parts[0].length() - 1)));
} catch (ParseException e) {
e.printStackTrace();
}
timestamp[i] = new Timestamp(date.getTime());
loglevel[i] = data.substring(parts[0].length() + 1,
parts[0].length() + 1 + parts[1].length());
details[i] = data.substring(parts[0].length()
+ parts[1].length() + 1 + 1 + 1,
data.length());
}
/**
* metoda obslugi watku.
*/
public final void run() {
/** Zmienna do obslugi zczytywania danych z pliku. */
Scanner scanner = null;
try {
scanner = new Scanner(new File(config.getLocInput()));
System.out.println("Odczytano sciezke do pliku!");
} catch (FileNotFoundException e) {
System.out.println("Blad odczytu pliku!");
}
//dopoki jest nastepna linia
while (scanner.hasNextLine()) {
timestamp = new Timestamp[(int) config.getBatchSize()];
loglevel = new String[(int) config.getBatchSize()];
details = new String[(int) config.getBatchSize()];
for (int i = 0; i < config.getBatchSize(); ++i) {
//jezeli nie ma nastepnej linii to konczy
if (!scanner.hasNextLine()) { break; }
data = scanner.nextLine();
//jesli nie jest to pusta linia
if (!(data.equals(""))) {
parts = data.split(" "); //wyszukiwanie spacji
setValues(i);
}
}
//tworzenie Zdarzen
createEvents();
}
System.out.println("Odczytano plik!");
scanner.close();
}
} | 201idzb/project | AL/src/in/FileInputAdapter.java | 1,928 | /** Zmienna do przechowywania kolumny details (opis zdarzenia). */ | block_comment | pl | /**
* Pakiet in
*/
package in;
import java.io.File;
import java.io.FileNotFoundException;
import java.sql.Timestamp;
import java.text.DateFormat;
import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.Date;
import java.util.Scanner;
import testandexceptions.InvalidEventException;
import logmanager.Configuration;
import logmanager.QueueManager;
import logmanager.Event;
/**
* wejsciowy adapter pobierajacy dane z pliku.
* @author Mateusz Ratajczyk
*/
public class FileInputAdapter extends Thread implements InputAdapter {
/** Obiekt do klasy Configuration. */
private Configuration config;
/** Obiekt do klasy QueueManager. */
private QueueManager queue;
/** Zmienna do przechowywania kolumny timestamp (czas zdarzenia). */
private Timestamp[] timestamp = null;
/** Zmienna do przechowywania kolumny loglevel (typ zdarzenia). */
private String[] loglevel = null;
/** Zmie<SUF>*/
private String[] details = null;
/** Zmienna do przechowywania kolejnych spacji w linii z loga. */
private String[] parts;
/** Zmienna do przechowywania linii z loga. */
private String data = "";
/** Czas zdarzenia wykorzystywany do rzutowania. */
private Date date;
/** Konstruktor wypisujacy utworzenie adaptera. */
public FileInputAdapter() {
System.out.println("Utworzono Adapter Wejsciowy");
}
/**
* Metoda sluzaca do polaczenia z obiektem
* konfiguracji za pomoca referencji z rdzenia aplikacji.
* @param cnfg obiekt zawierajacy konfiguracje
*/
public final void setupConfig(final Configuration cnfg) {
this.config = cnfg;
}
/**
* Metoda sluzaca do polaczenia z obiektem
* kolejki za pomoca referencji z rdzenia aplikacji.
* @param que referencja do kolejki
*/
public final void connectToQueueManager(final QueueManager que) {
this.queue = que;
}
/**
* funkcja wywolania.
*/
public final void exec() { start(); }
/**
* do obslugi funkcji testowej.
* @param tmp test
* @return null
*/
@Override
public final String test(final String tmp) { return null; }
/**
* metoda sluzaca do tworzenia zdarzen.
*/
public final void createEvents() {
/** Zmienna do przechowywania czasu uspienia (w ms). */
final int timeToSleep = 1000;
for (int i = 0; i < config.getBatchSize(); ++i) {
if (timestamp[i] != null) {
Event a;
try {
a = new Event(timestamp[i], loglevel[i], details[i]);
while (!queue.acceptEvent(a)) {
System.out.println("Nie udalo sie dodac Eventu("
+ timestamp[i]
+ ", " + loglevel[i]
+ ", " + details[i]);
System.out.println("Ponawiam...");
try {
Thread.sleep(timeToSleep);
} catch (InterruptedException e) {
e.printStackTrace();
}
}
} catch (InvalidEventException e1) {
e1.printStackTrace();
}
System.out.println("Dodano Event("
+ timestamp[i] + ", "
+ loglevel[i] + ", "
+ details[i]);
}
}
}
/**
* metoda sluzaca do ustalania wartosci
* timestamp, loglevel oraz details.
* @param i index
*/
public final void setValues(final int i) {
/** Format czasu zdarzenia. */
DateFormat df = new SimpleDateFormat(
"yyyy-MM-dd'T'HH:mm:ss.SSS");
try {
date = (Date) df.parse((data.substring(1,
0 + parts[0].length() - 1)));
} catch (ParseException e) {
e.printStackTrace();
}
timestamp[i] = new Timestamp(date.getTime());
loglevel[i] = data.substring(parts[0].length() + 1,
parts[0].length() + 1 + parts[1].length());
details[i] = data.substring(parts[0].length()
+ parts[1].length() + 1 + 1 + 1,
data.length());
}
/**
* metoda obslugi watku.
*/
public final void run() {
/** Zmienna do obslugi zczytywania danych z pliku. */
Scanner scanner = null;
try {
scanner = new Scanner(new File(config.getLocInput()));
System.out.println("Odczytano sciezke do pliku!");
} catch (FileNotFoundException e) {
System.out.println("Blad odczytu pliku!");
}
//dopoki jest nastepna linia
while (scanner.hasNextLine()) {
timestamp = new Timestamp[(int) config.getBatchSize()];
loglevel = new String[(int) config.getBatchSize()];
details = new String[(int) config.getBatchSize()];
for (int i = 0; i < config.getBatchSize(); ++i) {
//jezeli nie ma nastepnej linii to konczy
if (!scanner.hasNextLine()) { break; }
data = scanner.nextLine();
//jesli nie jest to pusta linia
if (!(data.equals(""))) {
parts = data.split(" "); //wyszukiwanie spacji
setValues(i);
}
}
//tworzenie Zdarzen
createEvents();
}
System.out.println("Odczytano plik!");
scanner.close();
}
} |
91021_1 | /**
* Interfejs sterowania i monitoringu sluzy.
*
*/
public interface AirlockInterface {
/**
* Typ wyliczeniowy Event zawiera zdarzenia, do ktorych moze dojsc w sluzie.
*
*/
enum Event {
/**
* Wewnetrzne drzwi sluzy zostaly zamkniete
*/
INTERNAL_AIRTIGHT_DOORS_CLOSED,
/**
* Wewnetrzne drzwi sluzy zostaly otwarte
*/
INTERNAL_AIRTIGHT_DOORS_OPENED,
/**
* Zewnetrzne drzwi sluzy zostaly zamkniete
*/
EXTERNAL_AIRTIGHT_DOORS_CLOSED,
/**
* Zewnetrzne drzwi sluzy zostaly otwarte
*/
EXTERNAL_AIRTIGHT_DOORS_OPENED,
/**
* Ladunek w sluzie
*/
CARGO_INSIDE,
/**
* Sluza jest pusta
*/
AIRLOCK_EMPTY,
/**
* Nic dobrego...
*/
DISASTER
}
/**
* Interfejs umozliwiajacy przekazanie informacji o zdarzeniu w sluzie.
*/
interface EventsListenerInterface {
void newAirlockEvent(Event event);
}
/**
* Zlecenie otwarcia wewnetrznych drzwi sluzy.
*/
void openInternalAirtightDoors();
/**
* Zlecenie zamkniecia wewnetrznych drzwi sluzy.
*/
void closeInternalAirtightDoors();
/**
* Zlecenie otwarcia zewnetrznych drzwi sluzy
*/
void openExternalAirtightDoors();
/**
* Zlecenie zamkniecia zewnetrznych drzwi sluzy
*/
void closeExternalAirtightDoors();
/**
* Ladunek umieszczany jest w sluzie. Aby operacja mogla byc zrealizowana jedne
* z drzwi musza byc otwarte i rozmiar sluzy musi byc nie mniejszy niz rozmiar
* ladunku. Zlecenie umieszczenia w zamknietej lub zbyt malej sluzie ladunku
* powoduje zniszczenie i ladunku i sluzy.
*
* @param cargo
* ladunek umieszczany w sluzie
*/
void insertCargo(CargoInterface cargo);
/**
* Ladunek usuwany jest ze sluzy. Jedne z drzwi musza byc otwarte. Kierunek
* ruchu zalezy od tego, ktore drzwi sa otwarte. Zlecenie operacji przy
* zamknietych drzwiach prowadzi do zniszczenia ladunku i sluzy.
*/
void ejectCargo();
/**
* Metoda zwraca rozmiar sluzy.
* @return rozmiar sluzy
*/
int getSize();
/**
* Metoda do ustawienia obiektu, ktory bedzie powiadamiany o zmianach w stanie
* sluzy.
*
* @param eventsListener
* obiekt informowany o zmianach w stanie sluzy.
*/
void setEventsListener(EventsListenerInterface eventsListener);
}
| 204Constie/baseonmars | src/AirlockInterface.java | 974 | /**
* Typ wyliczeniowy Event zawiera zdarzenia, do ktorych moze dojsc w sluzie.
*
*/ | block_comment | pl | /**
* Interfejs sterowania i monitoringu sluzy.
*
*/
public interface AirlockInterface {
/**
* Typ <SUF>*/
enum Event {
/**
* Wewnetrzne drzwi sluzy zostaly zamkniete
*/
INTERNAL_AIRTIGHT_DOORS_CLOSED,
/**
* Wewnetrzne drzwi sluzy zostaly otwarte
*/
INTERNAL_AIRTIGHT_DOORS_OPENED,
/**
* Zewnetrzne drzwi sluzy zostaly zamkniete
*/
EXTERNAL_AIRTIGHT_DOORS_CLOSED,
/**
* Zewnetrzne drzwi sluzy zostaly otwarte
*/
EXTERNAL_AIRTIGHT_DOORS_OPENED,
/**
* Ladunek w sluzie
*/
CARGO_INSIDE,
/**
* Sluza jest pusta
*/
AIRLOCK_EMPTY,
/**
* Nic dobrego...
*/
DISASTER
}
/**
* Interfejs umozliwiajacy przekazanie informacji o zdarzeniu w sluzie.
*/
interface EventsListenerInterface {
void newAirlockEvent(Event event);
}
/**
* Zlecenie otwarcia wewnetrznych drzwi sluzy.
*/
void openInternalAirtightDoors();
/**
* Zlecenie zamkniecia wewnetrznych drzwi sluzy.
*/
void closeInternalAirtightDoors();
/**
* Zlecenie otwarcia zewnetrznych drzwi sluzy
*/
void openExternalAirtightDoors();
/**
* Zlecenie zamkniecia zewnetrznych drzwi sluzy
*/
void closeExternalAirtightDoors();
/**
* Ladunek umieszczany jest w sluzie. Aby operacja mogla byc zrealizowana jedne
* z drzwi musza byc otwarte i rozmiar sluzy musi byc nie mniejszy niz rozmiar
* ladunku. Zlecenie umieszczenia w zamknietej lub zbyt malej sluzie ladunku
* powoduje zniszczenie i ladunku i sluzy.
*
* @param cargo
* ladunek umieszczany w sluzie
*/
void insertCargo(CargoInterface cargo);
/**
* Ladunek usuwany jest ze sluzy. Jedne z drzwi musza byc otwarte. Kierunek
* ruchu zalezy od tego, ktore drzwi sa otwarte. Zlecenie operacji przy
* zamknietych drzwiach prowadzi do zniszczenia ladunku i sluzy.
*/
void ejectCargo();
/**
* Metoda zwraca rozmiar sluzy.
* @return rozmiar sluzy
*/
int getSize();
/**
* Metoda do ustawienia obiektu, ktory bedzie powiadamiany o zmianach w stanie
* sluzy.
*
* @param eventsListener
* obiekt informowany o zmianach w stanie sluzy.
*/
void setEventsListener(EventsListenerInterface eventsListener);
}
|
156366_1 | import java.awt.geom.Point2D.Double;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import java.util.TreeMap;
public class PMO_ResultListener implements ResultConsumerInterface, PMO_Testable, PMO_LogSource {
private List<Integer> framesDelivered = Collections.synchronizedList(new ArrayList<>());
private Map<Integer, Double> resultsDelivered = Collections.synchronizedMap(new TreeMap<>());
private int framesExpected;
private Map<Integer, Double> resultsExpected;
@Override
public void accept(int frameNumber, Double position) {
log("Odebrano wynik dla " + frameNumber + " " + position);
framesDelivered.add(frameNumber);
resultsDelivered.put(frameNumber, position);
}
public void setFramesExpected(int framesExpected) {
this.framesExpected = framesExpected;
}
public void setResultsExpected(Map<Integer, Double> resultsExpected) {
this.resultsExpected = resultsExpected;
}
@Override
public boolean isOK() {
if (framesExpected == 0) {
PMO_CommonErrorLog.internalError("lastFrameNumberExpected not set");
}
if (resultsExpected == null) {
PMO_CommonErrorLog.internalError("resultsExpected not set");
}
if (framesDelivered.size() != framesExpected) {
PMO_CommonErrorLog.error("Blad: dostarczono inna liczbe wynikow niz oczekiwano");
PMO_CommonErrorLog.error("Blad: oczekiwano " + framesExpected + " a do Listenera dotarlo "
+ framesDelivered.size());
return false;
}
if (framesDelivered.get(0) != 0) {
PMO_CommonErrorLog.error("Blad: pierwsza z dostarczonych ramek nie ma numeru 0");
PMO_CommonErrorLog.error("Blad: pierwsza z dostarczonych ramek to " + framesDelivered.get(0));
return false;
}
for (int i = 0; i < framesExpected; i++) {
if (framesDelivered.get(i) != i) {
PMO_CommonErrorLog.error("Jako " + (i + 1) + " ramke odebrano ramke o frameNumber "
+ framesDelivered.get(i) + " a powinno byc " + i);
PMO_CommonErrorLog.error(framesDelivered.toString());
return false;
}
}
PMO_SystemOutRedirect.println("Test odebranych frameNumber zaliczony");
for (Map.Entry<Integer, Double> entry : resultsExpected.entrySet()) {
// omijamy wyniki, ktore zostaly wprawdzie wyslane, ale nie
// powinny zostac dostarczone do Listenera
if (entry.getKey() > framesExpected)
continue;
if (!resultsDelivered.containsKey(entry.getKey())) {
PMO_CommonErrorLog.error("Blad: Wsrod dostarczonych wynikow brak frameNumber " + entry.getKey());
return false;
}
if (!resultsDelivered.get(entry.getKey()).equals(entry.getValue())) {
PMO_CommonErrorLog.error("Blad: dla frameNumber " + entry.getKey() + " dostarczono bledny wynik.");
PMO_CommonErrorLog.error("Blad: dla frameNumber " + entry.getKey() + " oczekiwano " + entry.getValue());
PMO_CommonErrorLog.error(
"Blad: dla frameNumber " + entry.getKey() + " jest " + resultsDelivered.get(entry.getKey()));
return false;
}
}
PMO_SystemOutRedirect.println("Test odebranych wynikow zaliczony");
return true;
}
}
| 204Constie/prirdsys | src/PMO_ResultListener.java | 1,149 | // powinny zostac dostarczone do Listenera | line_comment | pl | import java.awt.geom.Point2D.Double;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import java.util.TreeMap;
public class PMO_ResultListener implements ResultConsumerInterface, PMO_Testable, PMO_LogSource {
private List<Integer> framesDelivered = Collections.synchronizedList(new ArrayList<>());
private Map<Integer, Double> resultsDelivered = Collections.synchronizedMap(new TreeMap<>());
private int framesExpected;
private Map<Integer, Double> resultsExpected;
@Override
public void accept(int frameNumber, Double position) {
log("Odebrano wynik dla " + frameNumber + " " + position);
framesDelivered.add(frameNumber);
resultsDelivered.put(frameNumber, position);
}
public void setFramesExpected(int framesExpected) {
this.framesExpected = framesExpected;
}
public void setResultsExpected(Map<Integer, Double> resultsExpected) {
this.resultsExpected = resultsExpected;
}
@Override
public boolean isOK() {
if (framesExpected == 0) {
PMO_CommonErrorLog.internalError("lastFrameNumberExpected not set");
}
if (resultsExpected == null) {
PMO_CommonErrorLog.internalError("resultsExpected not set");
}
if (framesDelivered.size() != framesExpected) {
PMO_CommonErrorLog.error("Blad: dostarczono inna liczbe wynikow niz oczekiwano");
PMO_CommonErrorLog.error("Blad: oczekiwano " + framesExpected + " a do Listenera dotarlo "
+ framesDelivered.size());
return false;
}
if (framesDelivered.get(0) != 0) {
PMO_CommonErrorLog.error("Blad: pierwsza z dostarczonych ramek nie ma numeru 0");
PMO_CommonErrorLog.error("Blad: pierwsza z dostarczonych ramek to " + framesDelivered.get(0));
return false;
}
for (int i = 0; i < framesExpected; i++) {
if (framesDelivered.get(i) != i) {
PMO_CommonErrorLog.error("Jako " + (i + 1) + " ramke odebrano ramke o frameNumber "
+ framesDelivered.get(i) + " a powinno byc " + i);
PMO_CommonErrorLog.error(framesDelivered.toString());
return false;
}
}
PMO_SystemOutRedirect.println("Test odebranych frameNumber zaliczony");
for (Map.Entry<Integer, Double> entry : resultsExpected.entrySet()) {
// omijamy wyniki, ktore zostaly wprawdzie wyslane, ale nie
// pow<SUF>
if (entry.getKey() > framesExpected)
continue;
if (!resultsDelivered.containsKey(entry.getKey())) {
PMO_CommonErrorLog.error("Blad: Wsrod dostarczonych wynikow brak frameNumber " + entry.getKey());
return false;
}
if (!resultsDelivered.get(entry.getKey()).equals(entry.getValue())) {
PMO_CommonErrorLog.error("Blad: dla frameNumber " + entry.getKey() + " dostarczono bledny wynik.");
PMO_CommonErrorLog.error("Blad: dla frameNumber " + entry.getKey() + " oczekiwano " + entry.getValue());
PMO_CommonErrorLog.error(
"Blad: dla frameNumber " + entry.getKey() + " jest " + resultsDelivered.get(entry.getKey()));
return false;
}
}
PMO_SystemOutRedirect.println("Test odebranych wynikow zaliczony");
return true;
}
}
|
169469_7 | package com.spb.StrangersPlayBackend;
import com.fasterxml.jackson.core.JsonProcessingException;
import com.fasterxml.jackson.databind.ObjectMapper;
import com.spb.StrangersPlayBackend.dto.AccountDto;
import com.spb.StrangersPlayBackend.dto.AdvertisementDto;
import com.spb.StrangersPlayBackend.model.Category;
import org.springframework.boot.SpringApplication;
import org.springframework.boot.autoconfigure.SpringBootApplication;
import springfox.documentation.spring.web.json.Json;
import springfox.documentation.spring.web.json.JsonSerializer;
import java.time.Instant;
@SpringBootApplication
public class StrangersPlayBackendApplication {
public static void main(String[] args) {
// AdvertisementDto accountDto = new AdvertisementDto();
// accountDto.setCategory(Category.PILKA_NOZNA);
// accountDto.setLevel(1);
// accountDto.setPrice(10.0);
// accountDto.setCreationTime(Instant.now());
// accountDto.setUsername("janusz");
// accountDto.setEventTime("2019-11-11T15:52:50.065Z");
// accountDto.setTitle("granie w piłkę");
// accountDto.setDescription("granie w piłke za 3 DS PŁ");
// accountDto.setEventLocation("3 ds PŁ");
// ObjectMapper mapper = new ObjectMapper();
// try {
// System.out.println(mapper.writeValueAsString(accountDto));
// } catch (JsonProcessingException e) {
// e.printStackTrace();
// }
SpringApplication.run(StrangersPlayBackendApplication.class, args);
}
}
| 209278/StrangersPlayBackend | src/main/java/com/spb/StrangersPlayBackend/StrangersPlayBackendApplication.java | 502 | // accountDto.setTitle("granie w piłkę"); | line_comment | pl | package com.spb.StrangersPlayBackend;
import com.fasterxml.jackson.core.JsonProcessingException;
import com.fasterxml.jackson.databind.ObjectMapper;
import com.spb.StrangersPlayBackend.dto.AccountDto;
import com.spb.StrangersPlayBackend.dto.AdvertisementDto;
import com.spb.StrangersPlayBackend.model.Category;
import org.springframework.boot.SpringApplication;
import org.springframework.boot.autoconfigure.SpringBootApplication;
import springfox.documentation.spring.web.json.Json;
import springfox.documentation.spring.web.json.JsonSerializer;
import java.time.Instant;
@SpringBootApplication
public class StrangersPlayBackendApplication {
public static void main(String[] args) {
// AdvertisementDto accountDto = new AdvertisementDto();
// accountDto.setCategory(Category.PILKA_NOZNA);
// accountDto.setLevel(1);
// accountDto.setPrice(10.0);
// accountDto.setCreationTime(Instant.now());
// accountDto.setUsername("janusz");
// accountDto.setEventTime("2019-11-11T15:52:50.065Z");
// acc<SUF>
// accountDto.setDescription("granie w piłke za 3 DS PŁ");
// accountDto.setEventLocation("3 ds PŁ");
// ObjectMapper mapper = new ObjectMapper();
// try {
// System.out.println(mapper.writeValueAsString(accountDto));
// } catch (JsonProcessingException e) {
// e.printStackTrace();
// }
SpringApplication.run(StrangersPlayBackendApplication.class, args);
}
}
|
43677_0 | package zadanie2;
import javax.swing.*;
import java.awt.*;
import java.util.Random;
public class Map extends JPanel{
private int width;
private int height;
public static Leaf [][] mapa;
public static Snail[] listaSnail;
public static JPanel[][] mapaGui;
public static JLabel[][] mapaText;
private int snailNumber;
Map(int h, int w, int agent_number){
this.width=h;
this.height=w;
this.snailNumber=agent_number;
mapa = new Leaf[width][height];
listaSnail = new Snail[snailNumber];
mapaGui=new JPanel[this.width][height];
mapaText = new JLabel[width][height];
setLayout(new GridLayout(width,height));
map_init();
setVisible(true);
}
private void map_init(){
Random rand = new Random();
int addedSnails=0;
for (int i=0; i<width; i++){
for (int j=0; j<height;j++){
if (addedSnails<snailNumber){
boolean pomocb= rand.nextBoolean();
mapa[i][j]=(new Leaf(rand.nextInt(10),pomocb));
if (pomocb) {
listaSnail[addedSnails] = new Snail(i,j,1,5000);
try{
Thread.sleep(rand.nextInt(66,875));
}catch (InterruptedException e) {
throw new RuntimeException(e);
}
addedSnails++;
}
}
else mapa[i][j]=(new Leaf(rand.nextInt(10),false));
JPanel pomoc = new JPanel();
JLabel pomocniczy = new JLabel(String.valueOf(mapa[i][j].getFood()));
pomocniczy.setForeground(Color.WHITE);
mapaText[i][j]=pomocniczy;
pomoc.add(pomocniczy);
pomoc.setBackground(mapa[i][j].kolor);
pomoc.setVisible(true);
mapaGui[i][j]=pomoc;
this.add(mapaGui[i][j]);
}
}
//tutaj dodać check czy zgadza się ilośc dodanych ślimaków
}
public static void map_refresh(){
for (int i =0; i<mapa.length; i++){
for (int j=0; j<mapa[i].length; j++){
mapaGui[i][j].setBackground(mapa[i][j].kolor);
mapaText[i][j].setText(String.valueOf(mapa[i][j].getFood()));
}
}
}
public void showMapa(){
for (int i=0; i<mapa.length; i++){
for (int j=0; j<mapa[i].length;j++){
System.out.printf("%d", mapa[i][j].getFood());
}
System.out.println();
}
}
}
| 213N10/jezykiProgramowaniaIte | lab6/src/zadanie2/Map.java | 845 | //tutaj dodać check czy zgadza się ilośc dodanych ślimaków | line_comment | pl | package zadanie2;
import javax.swing.*;
import java.awt.*;
import java.util.Random;
public class Map extends JPanel{
private int width;
private int height;
public static Leaf [][] mapa;
public static Snail[] listaSnail;
public static JPanel[][] mapaGui;
public static JLabel[][] mapaText;
private int snailNumber;
Map(int h, int w, int agent_number){
this.width=h;
this.height=w;
this.snailNumber=agent_number;
mapa = new Leaf[width][height];
listaSnail = new Snail[snailNumber];
mapaGui=new JPanel[this.width][height];
mapaText = new JLabel[width][height];
setLayout(new GridLayout(width,height));
map_init();
setVisible(true);
}
private void map_init(){
Random rand = new Random();
int addedSnails=0;
for (int i=0; i<width; i++){
for (int j=0; j<height;j++){
if (addedSnails<snailNumber){
boolean pomocb= rand.nextBoolean();
mapa[i][j]=(new Leaf(rand.nextInt(10),pomocb));
if (pomocb) {
listaSnail[addedSnails] = new Snail(i,j,1,5000);
try{
Thread.sleep(rand.nextInt(66,875));
}catch (InterruptedException e) {
throw new RuntimeException(e);
}
addedSnails++;
}
}
else mapa[i][j]=(new Leaf(rand.nextInt(10),false));
JPanel pomoc = new JPanel();
JLabel pomocniczy = new JLabel(String.valueOf(mapa[i][j].getFood()));
pomocniczy.setForeground(Color.WHITE);
mapaText[i][j]=pomocniczy;
pomoc.add(pomocniczy);
pomoc.setBackground(mapa[i][j].kolor);
pomoc.setVisible(true);
mapaGui[i][j]=pomoc;
this.add(mapaGui[i][j]);
}
}
//tut<SUF>
}
public static void map_refresh(){
for (int i =0; i<mapa.length; i++){
for (int j=0; j<mapa[i].length; j++){
mapaGui[i][j].setBackground(mapa[i][j].kolor);
mapaText[i][j].setText(String.valueOf(mapa[i][j].getFood()));
}
}
}
public void showMapa(){
for (int i=0; i<mapa.length; i++){
for (int j=0; j<mapa[i].length;j++){
System.out.printf("%d", mapa[i][j].getFood());
}
System.out.println();
}
}
}
|
51287_1 | package pl.zzpj.repository.core.service;
import lombok.AllArgsConstructor;
import lombok.extern.java.Log;
import org.springframework.stereotype.Service;
import pl.zzpj.repository.core.domain.exception.rent.*;
import pl.zzpj.repository.core.domain.exception.user.UserServiceNotFoundException;
import pl.zzpj.repository.core.domain.model.rentModel.Rent;
import pl.zzpj.repository.core.domain.model.rentModel.RentStatus;
import pl.zzpj.repository.core.domain.model.rentModel.vehicles.Vehicle;
import pl.zzpj.repository.core.domain.model.userModel.User;
import pl.zzpj.repository.ports.command.rent.RentCommandPort;
import pl.zzpj.repository.ports.command.rent.RentCommandService;
import pl.zzpj.repository.ports.query.rent.RentQueryPort;
import pl.zzpj.repository.ports.query.rent.RentQueryService;
import pl.zzpj.repository.ports.query.rent.RentVehiclesQueryPort;
import pl.zzpj.repository.ports.query.user.UserQueryRepositoryPort;
import java.math.BigDecimal;
import java.math.MathContext;
import java.math.RoundingMode;
import java.time.Duration;
import java.time.LocalDateTime;
import java.time.temporal.ChronoUnit;
import java.util.List;
import java.util.UUID;
@Service
@AllArgsConstructor
@Log
public class RentServiceImpl implements RentCommandService, RentQueryService {
private RentCommandPort commandPort;
private RentQueryPort queryPort;
private UserQueryRepositoryPort userQueryPort;
private RentVehiclesQueryPort vehicleQueryPort;
@Override
public Rent findRent(UUID rentId) throws RentNotFoundException {
return queryPort.getRent(rentId);
}
@Override
public List<Rent> findRentsByUser(UUID userId) {
return queryPort.getRentsByUserId(userId);
}
@Override
public List<Rent> findAllRentsByVehicle(UUID vehicleId) {
return queryPort.getRentsByVehicleId(vehicleId);
}
@Override
public List<Rent> findFutureRentsByVehicle(UUID vehicleId) {
return queryPort.getFutureRentsByVehicleId(vehicleId);
}
@Override
public List<Rent> findRentsByStatus(RentStatus status) {
return queryPort.getRentsByStatus(status);
}
@Override
public List<Rent> findRentsToIssue(LocalDateTime endTime) {
return queryPort.getRentsByStatusAndDeclaredDatesBetween(
RentStatus.CREATED, LocalDateTime.now(), endTime);
}
@Override
public List<Rent> findRentsToReturn(LocalDateTime endTime) {
return queryPort.getRentsByStatusAndDeclaredDatesBetween(
RentStatus.ISSUED, LocalDateTime.now(), endTime);
}
@Override
public List<Rent> findAllRents() {
return queryPort.getAllRents();
}
@Override
public boolean isVehicleAvailable(UUID vehicleId, LocalDateTime start, LocalDateTime end) {
List<Rent> vehicleRents = queryPort.getRentsByVehicleIdAndDatesBetween(
vehicleId, start, end);
return vehicleRents.isEmpty();
}
@Override
public BigDecimal calculatePrice(UUID vehicleId, UUID userId, LocalDateTime start, LocalDateTime end) throws UserServiceNotFoundException {
User user = userQueryPort.getUserById(userId).orElseThrow(
() -> new UserServiceNotFoundException("Given user not found"));
Vehicle vehicle = vehicleQueryPort.getById(vehicleId);
return calculatePrice(user, vehicle, start, end);
}
private BigDecimal calculatePrice(User user, Vehicle vehicle, LocalDateTime start, LocalDateTime end) {
Duration period = Duration.between(start, end);
long baseRentCost = period.toHours() * vehicle.getHourlyRate();
BigDecimal cost = new BigDecimal(baseRentCost);
return cost.multiply(BigDecimal.valueOf(100 - (user.getScore() / 10000d)))
.divide(BigDecimal.valueOf(100))
.setScale(2, RoundingMode.HALF_UP);
}
@Override
public Rent createRent(UUID userId, UUID vehicleId,
LocalDateTime startDate, LocalDateTime endDate)
throws RentInvalidDatePeriodException, UserServiceNotFoundException {
User user = userQueryPort.getUserById(userId)
.orElseThrow(() -> new UserServiceNotFoundException("Given user not found"));
Vehicle vehicle = vehicleQueryPort.getById(vehicleId);
LocalDateTime now = LocalDateTime.now();
if(startDate.isBefore(now) || endDate.isBefore(startDate)) {
throw new RentInvalidDatePeriodException("Invalid date period given");
}
Rent rent = Rent.createBuilder()
.user(user)
.vehicle(vehicle)
.price(calculatePrice(user, vehicle, startDate, endDate))
.startDate(startDate)
.endDate(endDate)
.createBuild();
return commandPort.upsert(rent);
}
@Override
public Rent cancelRent(UUID id) throws RentNotFoundException, RentNotCancellableException {
Rent rent = queryPort.getRent(id);
if(!this.isCancellable(rent)) {
throw new RentNotCancellableException("Rent is not cancellable");
}
rent.setStatus(RentStatus.CANCELLED);
updateUserScore(rent);
return commandPort.upsert(rent);
}
public boolean isCancellable(Rent rent) {
LocalDateTime now = LocalDateTime.now();
if(rent.getCreatedAt().plus(5, ChronoUnit.MINUTES)
.isAfter(now)) {
return true;
}
return rent.getDeclaredStartDate().plus(7, ChronoUnit.DAYS)
.isAfter(now);
}
@Override
public Rent issueVehicle(UUID id) throws RentNotFoundException, RentCannotIssueVehicleException {
Rent rent = queryPort.getRent(id);
LocalDateTime now = LocalDateTime.now();
// you can rent 30 mins before declared time
if(rent.getDeclaredStartDate()
.plus(30, ChronoUnit.MINUTES)
.isBefore(now)) {
throw new RentCannotIssueVehicleException("Cannot issue right now");
}
rent.setStatus(RentStatus.ISSUED);
rent.setActualStartDate(now);
return commandPort.upsert(rent);
}
@Override
public Rent returnVehicle(UUID id) throws RentNotFoundException, RentVehicleNotIssuedException {
Rent rent = queryPort.getRent(id);
if(!rent.getStatus().equals(RentStatus.ISSUED)) {
throw new RentVehicleNotIssuedException("Vehicle not issued");
}
rent.setStatus(RentStatus.RETURNED_GOOD);
rent.setActualEndDate(LocalDateTime.now());
updateUserScore(rent);
return commandPort.upsert(rent);
}
@Override
public Rent returnDamagedVehicle(UUID id) throws RentNotFoundException, RentVehicleNotIssuedException {
Rent rent = queryPort.getRent(id);
if(!rent.getStatus().equals(RentStatus.ISSUED)) {
throw new RentVehicleNotIssuedException("Vehicle not issued");
}
rent.setStatus(RentStatus.RETURNED_DAMAGED);
rent.setActualEndDate(LocalDateTime.now());
updateUserScore(rent);
return commandPort.upsert(rent);
}
@Override
public Rent returnMissingVehicle(UUID id) throws RentNotFoundException, RentVehicleNotIssuedException {
Rent rent = queryPort.getRent(id);
if(!rent.getStatus().equals(RentStatus.ISSUED)) {
throw new RentVehicleNotIssuedException("Vehicle not issued");
}
rent.setStatus(RentStatus.NOT_RETURNED);
rent.setActualEndDate(LocalDateTime.now());
updateUserScore(rent);
rent.getVehicle().setAvailable(false);
return commandPort.upsert(rent);
}
@Override
public void updateRentsNotIssued() {
List<Rent> rentsToIssue = queryPort.getRentsByStatus(RentStatus.CREATED);
LocalDateTime now = LocalDateTime.now();
rentsToIssue.forEach(rent -> {
if(rent.getDeclaredStartDate().isBefore(now)) {
rent.setStatus(RentStatus.NOT_ISSUED);
updateUserScore(rent);
commandPort.upsert(rent);
}
});
}
// modyfikator do ceny z powodu wyniku konta to pomiędzy -30% i +10%
// dlatego punkty mogą mieć wartości od 3000 do -1000
// w najlepszym wypadku klient może dostać 1000 punktów za jedno wypożyczenie
private void updateUserScore(Rent rent) {
double rentPoints = 0;
if(rent.getActualStartDate() != null) {
Duration deltaStart = Duration.between(rent.getDeclaredStartDate(), rent.getActualStartDate());
if(deltaStart.isNegative()) {
// odbiór przed czasem jest możliwy, ale niepożądany
rentPoints -= 50d;
} else if(deltaStart.toMinutes() < 60){
// im później klient odbierze samochód, tym mniej punktów dostaje
rentPoints += 200d * (60 - deltaStart.toMinutes());
}
}
log.info(Double.toString(rentPoints));
if(rent.getActualEndDate() != null) {
log.info(rent.getDeclaredEndDate().toString());
log.info(rent.getActualEndDate().toString());
Duration deltaEnd = Duration.between(rent.getActualEndDate(), rent.getDeclaredEndDate());
if (deltaEnd.isNegative()) {
// oddane przed zadeklarowanym czasem (klient płaci za zarezerwowany czas)
rentPoints += 300d;
} else if (deltaEnd.toMinutes() < 60) {
// klient traci 0,1 pkt% zniżki za każdą minutę opóźnienia
rentPoints -= 10d * (deltaEnd.toMinutes());
}
}
switch(rent.getStatus()) {
case NOT_ISSUED -> rentPoints -= 100d;
case CANCELLED -> rentPoints -= 50d;
case RETURNED_GOOD -> rentPoints += 500d;
case RETURNED_DAMAGED -> rentPoints -= 200d;
case NOT_RETURNED -> rentPoints -= 3000d; // zniweluj każdą zniżkę
}
// clamp
rent.getUser().setScore(Math.max(-1000, Math.min(3000, rentPoints)));
}
}
| 229872/ZZPJ | ApplicationCore/ApplicationServices/src/main/java/pl/zzpj/repository/core/service/RentServiceImpl.java | 3,116 | // modyfikator do ceny z powodu wyniku konta to pomiędzy -30% i +10% | line_comment | pl | package pl.zzpj.repository.core.service;
import lombok.AllArgsConstructor;
import lombok.extern.java.Log;
import org.springframework.stereotype.Service;
import pl.zzpj.repository.core.domain.exception.rent.*;
import pl.zzpj.repository.core.domain.exception.user.UserServiceNotFoundException;
import pl.zzpj.repository.core.domain.model.rentModel.Rent;
import pl.zzpj.repository.core.domain.model.rentModel.RentStatus;
import pl.zzpj.repository.core.domain.model.rentModel.vehicles.Vehicle;
import pl.zzpj.repository.core.domain.model.userModel.User;
import pl.zzpj.repository.ports.command.rent.RentCommandPort;
import pl.zzpj.repository.ports.command.rent.RentCommandService;
import pl.zzpj.repository.ports.query.rent.RentQueryPort;
import pl.zzpj.repository.ports.query.rent.RentQueryService;
import pl.zzpj.repository.ports.query.rent.RentVehiclesQueryPort;
import pl.zzpj.repository.ports.query.user.UserQueryRepositoryPort;
import java.math.BigDecimal;
import java.math.MathContext;
import java.math.RoundingMode;
import java.time.Duration;
import java.time.LocalDateTime;
import java.time.temporal.ChronoUnit;
import java.util.List;
import java.util.UUID;
@Service
@AllArgsConstructor
@Log
public class RentServiceImpl implements RentCommandService, RentQueryService {
private RentCommandPort commandPort;
private RentQueryPort queryPort;
private UserQueryRepositoryPort userQueryPort;
private RentVehiclesQueryPort vehicleQueryPort;
@Override
public Rent findRent(UUID rentId) throws RentNotFoundException {
return queryPort.getRent(rentId);
}
@Override
public List<Rent> findRentsByUser(UUID userId) {
return queryPort.getRentsByUserId(userId);
}
@Override
public List<Rent> findAllRentsByVehicle(UUID vehicleId) {
return queryPort.getRentsByVehicleId(vehicleId);
}
@Override
public List<Rent> findFutureRentsByVehicle(UUID vehicleId) {
return queryPort.getFutureRentsByVehicleId(vehicleId);
}
@Override
public List<Rent> findRentsByStatus(RentStatus status) {
return queryPort.getRentsByStatus(status);
}
@Override
public List<Rent> findRentsToIssue(LocalDateTime endTime) {
return queryPort.getRentsByStatusAndDeclaredDatesBetween(
RentStatus.CREATED, LocalDateTime.now(), endTime);
}
@Override
public List<Rent> findRentsToReturn(LocalDateTime endTime) {
return queryPort.getRentsByStatusAndDeclaredDatesBetween(
RentStatus.ISSUED, LocalDateTime.now(), endTime);
}
@Override
public List<Rent> findAllRents() {
return queryPort.getAllRents();
}
@Override
public boolean isVehicleAvailable(UUID vehicleId, LocalDateTime start, LocalDateTime end) {
List<Rent> vehicleRents = queryPort.getRentsByVehicleIdAndDatesBetween(
vehicleId, start, end);
return vehicleRents.isEmpty();
}
@Override
public BigDecimal calculatePrice(UUID vehicleId, UUID userId, LocalDateTime start, LocalDateTime end) throws UserServiceNotFoundException {
User user = userQueryPort.getUserById(userId).orElseThrow(
() -> new UserServiceNotFoundException("Given user not found"));
Vehicle vehicle = vehicleQueryPort.getById(vehicleId);
return calculatePrice(user, vehicle, start, end);
}
private BigDecimal calculatePrice(User user, Vehicle vehicle, LocalDateTime start, LocalDateTime end) {
Duration period = Duration.between(start, end);
long baseRentCost = period.toHours() * vehicle.getHourlyRate();
BigDecimal cost = new BigDecimal(baseRentCost);
return cost.multiply(BigDecimal.valueOf(100 - (user.getScore() / 10000d)))
.divide(BigDecimal.valueOf(100))
.setScale(2, RoundingMode.HALF_UP);
}
@Override
public Rent createRent(UUID userId, UUID vehicleId,
LocalDateTime startDate, LocalDateTime endDate)
throws RentInvalidDatePeriodException, UserServiceNotFoundException {
User user = userQueryPort.getUserById(userId)
.orElseThrow(() -> new UserServiceNotFoundException("Given user not found"));
Vehicle vehicle = vehicleQueryPort.getById(vehicleId);
LocalDateTime now = LocalDateTime.now();
if(startDate.isBefore(now) || endDate.isBefore(startDate)) {
throw new RentInvalidDatePeriodException("Invalid date period given");
}
Rent rent = Rent.createBuilder()
.user(user)
.vehicle(vehicle)
.price(calculatePrice(user, vehicle, startDate, endDate))
.startDate(startDate)
.endDate(endDate)
.createBuild();
return commandPort.upsert(rent);
}
@Override
public Rent cancelRent(UUID id) throws RentNotFoundException, RentNotCancellableException {
Rent rent = queryPort.getRent(id);
if(!this.isCancellable(rent)) {
throw new RentNotCancellableException("Rent is not cancellable");
}
rent.setStatus(RentStatus.CANCELLED);
updateUserScore(rent);
return commandPort.upsert(rent);
}
public boolean isCancellable(Rent rent) {
LocalDateTime now = LocalDateTime.now();
if(rent.getCreatedAt().plus(5, ChronoUnit.MINUTES)
.isAfter(now)) {
return true;
}
return rent.getDeclaredStartDate().plus(7, ChronoUnit.DAYS)
.isAfter(now);
}
@Override
public Rent issueVehicle(UUID id) throws RentNotFoundException, RentCannotIssueVehicleException {
Rent rent = queryPort.getRent(id);
LocalDateTime now = LocalDateTime.now();
// you can rent 30 mins before declared time
if(rent.getDeclaredStartDate()
.plus(30, ChronoUnit.MINUTES)
.isBefore(now)) {
throw new RentCannotIssueVehicleException("Cannot issue right now");
}
rent.setStatus(RentStatus.ISSUED);
rent.setActualStartDate(now);
return commandPort.upsert(rent);
}
@Override
public Rent returnVehicle(UUID id) throws RentNotFoundException, RentVehicleNotIssuedException {
Rent rent = queryPort.getRent(id);
if(!rent.getStatus().equals(RentStatus.ISSUED)) {
throw new RentVehicleNotIssuedException("Vehicle not issued");
}
rent.setStatus(RentStatus.RETURNED_GOOD);
rent.setActualEndDate(LocalDateTime.now());
updateUserScore(rent);
return commandPort.upsert(rent);
}
@Override
public Rent returnDamagedVehicle(UUID id) throws RentNotFoundException, RentVehicleNotIssuedException {
Rent rent = queryPort.getRent(id);
if(!rent.getStatus().equals(RentStatus.ISSUED)) {
throw new RentVehicleNotIssuedException("Vehicle not issued");
}
rent.setStatus(RentStatus.RETURNED_DAMAGED);
rent.setActualEndDate(LocalDateTime.now());
updateUserScore(rent);
return commandPort.upsert(rent);
}
@Override
public Rent returnMissingVehicle(UUID id) throws RentNotFoundException, RentVehicleNotIssuedException {
Rent rent = queryPort.getRent(id);
if(!rent.getStatus().equals(RentStatus.ISSUED)) {
throw new RentVehicleNotIssuedException("Vehicle not issued");
}
rent.setStatus(RentStatus.NOT_RETURNED);
rent.setActualEndDate(LocalDateTime.now());
updateUserScore(rent);
rent.getVehicle().setAvailable(false);
return commandPort.upsert(rent);
}
@Override
public void updateRentsNotIssued() {
List<Rent> rentsToIssue = queryPort.getRentsByStatus(RentStatus.CREATED);
LocalDateTime now = LocalDateTime.now();
rentsToIssue.forEach(rent -> {
if(rent.getDeclaredStartDate().isBefore(now)) {
rent.setStatus(RentStatus.NOT_ISSUED);
updateUserScore(rent);
commandPort.upsert(rent);
}
});
}
// mod<SUF>
// dlatego punkty mogą mieć wartości od 3000 do -1000
// w najlepszym wypadku klient może dostać 1000 punktów za jedno wypożyczenie
private void updateUserScore(Rent rent) {
double rentPoints = 0;
if(rent.getActualStartDate() != null) {
Duration deltaStart = Duration.between(rent.getDeclaredStartDate(), rent.getActualStartDate());
if(deltaStart.isNegative()) {
// odbiór przed czasem jest możliwy, ale niepożądany
rentPoints -= 50d;
} else if(deltaStart.toMinutes() < 60){
// im później klient odbierze samochód, tym mniej punktów dostaje
rentPoints += 200d * (60 - deltaStart.toMinutes());
}
}
log.info(Double.toString(rentPoints));
if(rent.getActualEndDate() != null) {
log.info(rent.getDeclaredEndDate().toString());
log.info(rent.getActualEndDate().toString());
Duration deltaEnd = Duration.between(rent.getActualEndDate(), rent.getDeclaredEndDate());
if (deltaEnd.isNegative()) {
// oddane przed zadeklarowanym czasem (klient płaci za zarezerwowany czas)
rentPoints += 300d;
} else if (deltaEnd.toMinutes() < 60) {
// klient traci 0,1 pkt% zniżki za każdą minutę opóźnienia
rentPoints -= 10d * (deltaEnd.toMinutes());
}
}
switch(rent.getStatus()) {
case NOT_ISSUED -> rentPoints -= 100d;
case CANCELLED -> rentPoints -= 50d;
case RETURNED_GOOD -> rentPoints += 500d;
case RETURNED_DAMAGED -> rentPoints -= 200d;
case NOT_RETURNED -> rentPoints -= 3000d; // zniweluj każdą zniżkę
}
// clamp
rent.getUser().setScore(Math.max(-1000, Math.min(3000, rentPoints)));
}
}
|
13157_1 | package agh.ics.oop;
import java.util.ArrayList;
public class Animal {
private MapDirection orientation = MapDirection.NORTH;
private Vector2d position = new Vector2d(0,0); // Domyślna pozycja jedyna, którą możemy zagwarantować dla każdej mapy
private final IWorldMap map;
// Konstruktor bez parametrów tylko na potrzeby testów
public Animal() {
this.position = new Vector2d(2, 2);
this.map = new RectangularMap(5, 5);
}
public Animal(IWorldMap map) {
this.map = map;
}
public Animal(IWorldMap map, Vector2d initialPosition) {
this.map = map;
this.position = initialPosition;
}
public MapDirection getOrientation() {
return orientation;
}
public Vector2d getPosition() {
return position;
}
public boolean isAt(Vector2d position) {
return this.position.equals(position);
}
public String toString() {
return switch (this.orientation) {
case NORTH -> "^";
case EAST -> ">";
case SOUTH -> "v";
case WEST -> "<";
};
}
public Animal move(MoveDirection direction) {
switch (direction) {
case RIGHT -> this.orientation = this.orientation.next();
case LEFT -> this.orientation = this.orientation.previous();
case FORWARD, BACKWARD -> {
Vector2d unitVector = this.orientation.toUnitVector();
if (direction == MoveDirection.BACKWARD)
unitVector = unitVector.opposite();
Vector2d newPosition = this.position.add(unitVector);
if (this.map.canMoveTo(newPosition))
this.position = newPosition;
}
}
return this;
}
public Animal move(ArrayList<MoveDirection> directions) {
for (MoveDirection direction : directions)
this.move(direction);
return this;
}
}
| 23adrian2300/PO_lab-AGH | lab4/src/main/java/agh/ics/oop/Animal.java | 552 | // Konstruktor bez parametrów tylko na potrzeby testów | line_comment | pl | package agh.ics.oop;
import java.util.ArrayList;
public class Animal {
private MapDirection orientation = MapDirection.NORTH;
private Vector2d position = new Vector2d(0,0); // Domyślna pozycja jedyna, którą możemy zagwarantować dla każdej mapy
private final IWorldMap map;
// Kon<SUF>
public Animal() {
this.position = new Vector2d(2, 2);
this.map = new RectangularMap(5, 5);
}
public Animal(IWorldMap map) {
this.map = map;
}
public Animal(IWorldMap map, Vector2d initialPosition) {
this.map = map;
this.position = initialPosition;
}
public MapDirection getOrientation() {
return orientation;
}
public Vector2d getPosition() {
return position;
}
public boolean isAt(Vector2d position) {
return this.position.equals(position);
}
public String toString() {
return switch (this.orientation) {
case NORTH -> "^";
case EAST -> ">";
case SOUTH -> "v";
case WEST -> "<";
};
}
public Animal move(MoveDirection direction) {
switch (direction) {
case RIGHT -> this.orientation = this.orientation.next();
case LEFT -> this.orientation = this.orientation.previous();
case FORWARD, BACKWARD -> {
Vector2d unitVector = this.orientation.toUnitVector();
if (direction == MoveDirection.BACKWARD)
unitVector = unitVector.opposite();
Vector2d newPosition = this.position.add(unitVector);
if (this.map.canMoveTo(newPosition))
this.position = newPosition;
}
}
return this;
}
public Animal move(ArrayList<MoveDirection> directions) {
for (MoveDirection direction : directions)
this.move(direction);
return this;
}
}
|
147484_0 | package pl.edu.agh.dronka.shop.model.util;
import java.util.LinkedHashMap;
import java.util.Map;
import pl.edu.agh.dronka.shop.model.Item;
public class PropertiesHelper {
public static Map<String, Object> getPropertiesMap(Item item) {
Map<String, Object> propertiesMap = new LinkedHashMap<>();
//zmieniłem nazwy dla lepszego wygladu
propertiesMap.put("Nazwy", item.getName());
propertiesMap.put("Cena", item.getPrice());
propertiesMap.put("Kategoria", item.getCategory().getDisplayName());
propertiesMap.put("Ilosc", item.getQuantity());
propertiesMap.put("Czy polskie", item.isPolish());
propertiesMap.put("Czy uzywany", item.isSecondhand());
Map<String, Object> additionalPropertiesMap = item.getExtraFieldsMap();
if (additionalPropertiesMap != null) {
propertiesMap.putAll(additionalPropertiesMap);
}
return propertiesMap;
}
} | 23adrian2300/ProjektowanieObiektowe-AGH | Lab2/dronka-shop/src/pl/edu/agh/dronka/shop/model/util/PropertiesHelper.java | 307 | //zmieniłem nazwy dla lepszego wygladu
| line_comment | pl | package pl.edu.agh.dronka.shop.model.util;
import java.util.LinkedHashMap;
import java.util.Map;
import pl.edu.agh.dronka.shop.model.Item;
public class PropertiesHelper {
public static Map<String, Object> getPropertiesMap(Item item) {
Map<String, Object> propertiesMap = new LinkedHashMap<>();
//zmi<SUF>
propertiesMap.put("Nazwy", item.getName());
propertiesMap.put("Cena", item.getPrice());
propertiesMap.put("Kategoria", item.getCategory().getDisplayName());
propertiesMap.put("Ilosc", item.getQuantity());
propertiesMap.put("Czy polskie", item.isPolish());
propertiesMap.put("Czy uzywany", item.isSecondhand());
Map<String, Object> additionalPropertiesMap = item.getExtraFieldsMap();
if (additionalPropertiesMap != null) {
propertiesMap.putAll(additionalPropertiesMap);
}
return propertiesMap;
}
} |
20519_1 | package sr.ice.client;
import Demo.A;
import Demo.CalcPrx;
import Demo.EmptySequence;
import com.zeroc.Ice.*;
import java.io.IOException;
import java.lang.Exception;
import java.util.HashMap;
import java.util.Map;
import java.util.Objects;
import java.util.concurrent.CompletableFuture;
public class IceClient {
public static void main(String[] args) {
int status = 0;
Communicator communicator = null;
try {
// 1. Inicjalizacja ICE
communicator = Util.initialize(args);
// 2. Uzyskanie referencji obiektu na podstawie linii w pliku konfiguracyjnym (wówczas aplikację należy uruchomić z argumentem --Ice.config=config.client)
//ObjectPrx base1 = communicator.propertyToProxy("Calc1.Proxy");
//dokończyć
// 2. Uzyskanie referencji obiektu - to samo co powyżej, ale mniej ładnie
// ObjectPrx base1 = communicator.stringToProxy("calc/calc11:tcp -h 192.168.213.29 -p 10000 -z : udp -h 192.168.213.29 -p 10000 -z"); //opcja -z włącza możliwość kompresji wiadomości
ObjectPrx base1 = communicator.stringToProxy("calc/calc11:tcp -h 127.0.0.2 -p 10000 -z : udp -h 127.0.0.2 -p 10000 -z");
// 3. Rzutowanie, zawężanie (do typu Calc)
CalcPrx obj1 = CalcPrx.checkedCast(base1);
//CalcPrx obj1 = CalcPrx.uncheckedCast(base1); //na czym polega różnica?
if (obj1 == null) throw new Error("Invalid proxy");
CompletableFuture<Long> cfl = null;
String line = null;
java.io.BufferedReader in = new java.io.BufferedReader(new java.io.InputStreamReader(System.in));
long r;
A a;
double r1;
long[] tab = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};
long[] emTab = {};
// 4. Wywołanie zdalnych operacji i zmiana trybu proxy dla obiektu obj1
do {
try {
System.out.print("==> ");
line = in.readLine();
switch (line) {
case "add":
r = obj1.add(7, 8);
System.out.println("RESULT = " + r);
break;
case "add2":
r = obj1.add(7000, 8000);
System.out.println("RESULT = " + r);
break;
case "subtract":
r = obj1.subtract(7, 8);
System.out.println("RESULT = " + r);
break;
case "avg":
try{
r1 = obj1.avg(tab);
System.out.println("RESULT = " + r1);
} catch (Exception ex) {
System.out.println("EXCEPTION: " + ex.getMessage());
}
break;
case "emptyavg":
try{
r1 = obj1.avg(emTab);
System.out.println("RESULT = " + r1);
} catch (EmptySequence ex) {
System.out.println("EXCEPTION: " + ex);
}
break;
case "op":
a = new A((short) 11, 22, 33.0f, "ala ma kota");
obj1.op(a, (short) 44);
System.out.println("DONE");
break;
case "op2":
a = new A((short) 11, 22, 33.0f, "ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ");
obj1.op(a, (short) 44);
System.out.println("DONE");
break;
case "op 10":
a = new A((short) 11, 22, 33.0f, "ala ma kota");
for (int i = 0; i < 10; i++) obj1.op(a, (short) 44);
System.out.println("DONE");
break;
case "add-with-ctx": //wysłanie dodatkowych danych stanowiących kontekst wywołania
Map<String, String> map = new HashMap<>();
map.put("key1", "val1");
map.put("key2", "val2");
r = obj1.add(7, 8, map);
System.out.println("RESULT = " + r);
break;
/* PONIŻEJ WYWOŁANIA REALIZOWANE W TRYBIE ASYNCHRONICZNYM */
case "add-asyn1": //future-based
obj1.addAsync(7000, 8000).whenComplete((result, ex) -> System.out.println("RESULT (asyn) = " + result));
break;
case "add-asyn2-req": //future-based 1. zlecenie wyłania
cfl = obj1.addAsync(7000, 8000);
break;
case "add-asyn2-res": //future-based 2. odebranie wyniku
r = cfl.join();
System.out.println("RESULT = " + r);
break;
case "op-asyn1a 100": //co się dzieje "w sieci"?
a = new A((short) 11, 22, 33.0f, "ala ma kota");
for (int i = 0; i < 100; i++) {
obj1.opAsync(a, (short) 99);
}
System.out.println("DONE");
break;
case "op-asyn1b 100":
a = new A((short) 11, 22, 33.0f, "ala ma kota");
for (int i = 0; i < 100; i++) {
obj1.opAsync(a, (short) 99).whenComplete((result, ex) ->
System.out.println("CALL (asyn) finished")
);
}
System.out.println("DONE");
break;
/* PONIŻEJ USTAWIANIE TRYBU PRACY PROXY */
case "compress on":
obj1 = obj1.ice_compress(true);
System.out.println("Compression enabled for obj1");
break;
case "compress off":
obj1 = obj1.ice_compress(false);
System.out.println("Compression disabled for obj1");
break;
case "set-proxy twoway":
obj1 = obj1.ice_twoway();
System.out.println("obj1 proxy set to 'twoway' mode");
break;
case "set-proxy oneway":
obj1 = obj1.ice_oneway();
System.out.println("obj1 proxy set to 'oneway' mode");
break;
case "set-proxy datagram":
obj1 = obj1.ice_datagram();
System.out.println("obj1 proxy set to 'datagram' mode");
break;
case "set-proxy batch oneway":
obj1 = obj1.ice_batchOneway();
System.out.println("obj1 proxy set to 'batch oneway' mode");
break;
case "set-proxy batch datagram":
obj1 = obj1.ice_batchDatagram();
System.out.println("obj1 proxy set to 'batch datagram' mode");
break;
case "flush": //sensowne tylko dla operacji wywoływanych w trybie batch
obj1.ice_flushBatchRequests();
System.out.println("Flush DONE");
break;
case "x":
case "":
break;
default:
System.out.println("???");
}
} catch (IOException | TwowayOnlyException ex) {
ex.printStackTrace(System.err);
}
}
while (!Objects.equals(line, "x"));
} catch (LocalException e) {
e.printStackTrace();
status = 1;
} catch (Exception e) {
System.err.println(e.getMessage());
status = 1;
}
if (communicator != null) { //clean
try {
communicator.destroy();
} catch (Exception e) {
System.err.println(e.getMessage());
status = 1;
}
}
System.exit(status);
}
} | 23adrian2300/SR-AGH | Middleware/Ice/src/sr/ice/client/IceClient.java | 3,290 | // 2. Uzyskanie referencji obiektu na podstawie linii w pliku konfiguracyjnym (wówczas aplikację należy uruchomić z argumentem --Ice.config=config.client) | line_comment | pl | package sr.ice.client;
import Demo.A;
import Demo.CalcPrx;
import Demo.EmptySequence;
import com.zeroc.Ice.*;
import java.io.IOException;
import java.lang.Exception;
import java.util.HashMap;
import java.util.Map;
import java.util.Objects;
import java.util.concurrent.CompletableFuture;
public class IceClient {
public static void main(String[] args) {
int status = 0;
Communicator communicator = null;
try {
// 1. Inicjalizacja ICE
communicator = Util.initialize(args);
// 2. <SUF>
//ObjectPrx base1 = communicator.propertyToProxy("Calc1.Proxy");
//dokończyć
// 2. Uzyskanie referencji obiektu - to samo co powyżej, ale mniej ładnie
// ObjectPrx base1 = communicator.stringToProxy("calc/calc11:tcp -h 192.168.213.29 -p 10000 -z : udp -h 192.168.213.29 -p 10000 -z"); //opcja -z włącza możliwość kompresji wiadomości
ObjectPrx base1 = communicator.stringToProxy("calc/calc11:tcp -h 127.0.0.2 -p 10000 -z : udp -h 127.0.0.2 -p 10000 -z");
// 3. Rzutowanie, zawężanie (do typu Calc)
CalcPrx obj1 = CalcPrx.checkedCast(base1);
//CalcPrx obj1 = CalcPrx.uncheckedCast(base1); //na czym polega różnica?
if (obj1 == null) throw new Error("Invalid proxy");
CompletableFuture<Long> cfl = null;
String line = null;
java.io.BufferedReader in = new java.io.BufferedReader(new java.io.InputStreamReader(System.in));
long r;
A a;
double r1;
long[] tab = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};
long[] emTab = {};
// 4. Wywołanie zdalnych operacji i zmiana trybu proxy dla obiektu obj1
do {
try {
System.out.print("==> ");
line = in.readLine();
switch (line) {
case "add":
r = obj1.add(7, 8);
System.out.println("RESULT = " + r);
break;
case "add2":
r = obj1.add(7000, 8000);
System.out.println("RESULT = " + r);
break;
case "subtract":
r = obj1.subtract(7, 8);
System.out.println("RESULT = " + r);
break;
case "avg":
try{
r1 = obj1.avg(tab);
System.out.println("RESULT = " + r1);
} catch (Exception ex) {
System.out.println("EXCEPTION: " + ex.getMessage());
}
break;
case "emptyavg":
try{
r1 = obj1.avg(emTab);
System.out.println("RESULT = " + r1);
} catch (EmptySequence ex) {
System.out.println("EXCEPTION: " + ex);
}
break;
case "op":
a = new A((short) 11, 22, 33.0f, "ala ma kota");
obj1.op(a, (short) 44);
System.out.println("DONE");
break;
case "op2":
a = new A((short) 11, 22, 33.0f, "ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ala ma kota ");
obj1.op(a, (short) 44);
System.out.println("DONE");
break;
case "op 10":
a = new A((short) 11, 22, 33.0f, "ala ma kota");
for (int i = 0; i < 10; i++) obj1.op(a, (short) 44);
System.out.println("DONE");
break;
case "add-with-ctx": //wysłanie dodatkowych danych stanowiących kontekst wywołania
Map<String, String> map = new HashMap<>();
map.put("key1", "val1");
map.put("key2", "val2");
r = obj1.add(7, 8, map);
System.out.println("RESULT = " + r);
break;
/* PONIŻEJ WYWOŁANIA REALIZOWANE W TRYBIE ASYNCHRONICZNYM */
case "add-asyn1": //future-based
obj1.addAsync(7000, 8000).whenComplete((result, ex) -> System.out.println("RESULT (asyn) = " + result));
break;
case "add-asyn2-req": //future-based 1. zlecenie wyłania
cfl = obj1.addAsync(7000, 8000);
break;
case "add-asyn2-res": //future-based 2. odebranie wyniku
r = cfl.join();
System.out.println("RESULT = " + r);
break;
case "op-asyn1a 100": //co się dzieje "w sieci"?
a = new A((short) 11, 22, 33.0f, "ala ma kota");
for (int i = 0; i < 100; i++) {
obj1.opAsync(a, (short) 99);
}
System.out.println("DONE");
break;
case "op-asyn1b 100":
a = new A((short) 11, 22, 33.0f, "ala ma kota");
for (int i = 0; i < 100; i++) {
obj1.opAsync(a, (short) 99).whenComplete((result, ex) ->
System.out.println("CALL (asyn) finished")
);
}
System.out.println("DONE");
break;
/* PONIŻEJ USTAWIANIE TRYBU PRACY PROXY */
case "compress on":
obj1 = obj1.ice_compress(true);
System.out.println("Compression enabled for obj1");
break;
case "compress off":
obj1 = obj1.ice_compress(false);
System.out.println("Compression disabled for obj1");
break;
case "set-proxy twoway":
obj1 = obj1.ice_twoway();
System.out.println("obj1 proxy set to 'twoway' mode");
break;
case "set-proxy oneway":
obj1 = obj1.ice_oneway();
System.out.println("obj1 proxy set to 'oneway' mode");
break;
case "set-proxy datagram":
obj1 = obj1.ice_datagram();
System.out.println("obj1 proxy set to 'datagram' mode");
break;
case "set-proxy batch oneway":
obj1 = obj1.ice_batchOneway();
System.out.println("obj1 proxy set to 'batch oneway' mode");
break;
case "set-proxy batch datagram":
obj1 = obj1.ice_batchDatagram();
System.out.println("obj1 proxy set to 'batch datagram' mode");
break;
case "flush": //sensowne tylko dla operacji wywoływanych w trybie batch
obj1.ice_flushBatchRequests();
System.out.println("Flush DONE");
break;
case "x":
case "":
break;
default:
System.out.println("???");
}
} catch (IOException | TwowayOnlyException ex) {
ex.printStackTrace(System.err);
}
}
while (!Objects.equals(line, "x"));
} catch (LocalException e) {
e.printStackTrace();
status = 1;
} catch (Exception e) {
System.err.println(e.getMessage());
status = 1;
}
if (communicator != null) { //clean
try {
communicator.destroy();
} catch (Exception e) {
System.err.println(e.getMessage());
status = 1;
}
}
System.exit(status);
}
} |
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